Hostname: page-component-cd9895bd7-8ctnn Total loading time: 0 Render date: 2024-12-25T16:28:19.135Z Has data issue: false hasContentIssue false

What are the priority welfare issues facing parrots in captivity? A modified Delphi approach to establish expert consensus

Published online by Cambridge University Press:  20 November 2024

Rhianne Chalmers
Affiliation:
Department of Life Sciences, University of Lincoln, Joseph Banks Building, Green Lane, Lincoln LN6 7TS, UK
Jonathan Cooper
Affiliation:
Department of Life Sciences, University of Lincoln, Joseph Banks Building, Green Lane, Lincoln LN6 7TS, UK
Beth Ventura*
Affiliation:
Department of Life Sciences, University of Lincoln, Joseph Banks Building, Green Lane, Lincoln LN6 7TS, UK
*
Corresponding author: Beth Ventura; Email: bventura@lincoln.ac.uk
Rights & Permissions [Opens in a new window]

Abstract

Parrots (Psittaciformes) are widely kept in captivity, yet their welfare is under-researched in comparison to other captive species. This study aimed to determine key welfare issues affecting parrots through a modified Delphi approach. Twenty-eight welfare issues were first compiled via a preliminary literature review. Parrot welfare experts and sector professionals (n = 26) were then recruited to participate in an online survey to rank the identified welfare issues on a six-point scale according to severity, duration and prevalence of each issue. Participants could provide commentary on their ranking and propose additional welfare issues of concern. Items with a mean score of 4 or above progressed to a second survey, where participants (n = 14) indicated whether they agreed or disagreed with the current ranking of the welfare issue. Finally, two online workshops were held, where participants (n = 7) discussed the rankings from the second survey and sought to establish a consensus on the top ten welfare issues in each category and overall. Six of the seven final participants agreed with the final rankings, achieving a consensus rate of 86%. The top welfare issues overall were lack of owner knowledge and support; social isolation; housing; environmental opportunity to express behaviours; nutrition; development of normal behaviour; lack of a ‘life plan’ for birds; abnormal behaviours; lack of parrot-specific veterinary training; and insufficient application and enforcement of legislation. It is hoped that identification and recognition of these priority areas will be useful in directing future efforts in research, owner and veterinary education, and policy initiatives to improve parrot welfare.

Type
Research Article
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2024. Published by Cambridge University Press on behalf of The Universities Federation for Animal Welfare

Introduction

Parrots (order Psittaciformes) are popular pets, with worldwide populations estimated at 50 million (see Mellor et al. Reference Mellor, McDonald Kinkaid, Mendl, Cuthill, van Zeeland and Mason2021). In addition to their role as companion animals, parrots are widely kept in zoos, rescue centres and, to a lesser extent, laboratories (Frynta et al. Reference Frynta, Liskova, Bultmann and Burda2010). However, captivity imposes risks to parrot welfare, as management and housing conditions can fail to meet parrots’ ecological and ethological needs, resulting in health and behaviour problems (for a review, see Baukhagen & Engell Reference Baukhagen and Engell2022). Compounding this situation is the limited research on companion bird (including parrot) welfare in comparison to other pet (mammalian) species (Arluke et al. Reference Arluke, Sanders, Morris, Brucker, Bujok, Mütherich, Seeliger and Thieme2015, see Burmeister et al. Reference Burmeister, Drasch, Rinder, Prechsl, Peschel, Korbel and Saam2022).

Where welfare concerns have been raised for captive animals and for underrepresented species in research in particular, Delphi studies have been utilised to solicit expert opinion and prioritise welfare issues to direct education and research efforts (see Rioja-Lang et al. Reference Rioja-Lang, Bacon, Connor and Dwyer2019a,Reference Rioja-Lang, Bacon, Connor and Dwyerb; Pearson et al. Reference Pearson, Waran, Reardon, Keen and Dwyer2021). The Delphi methodology, originating from studies carried out by the RAND Corporation in the 1950s (Okoli & Pawlowski Reference Okoli and Pawlowski2004), presents participants with the opportunity to respond anonymously to a research question, allowing the presentation of unbiased ideas and potentially leading to consensus (Rowe & Wright Reference Rowe, Wright and Armstrong2001). Delphi approaches typically consist of several phases in which experts are presented with questions refined from previous phases. Based upon previous studies (Henderson & Rubin Reference Henderson and Rubin2012; Slade et al. Reference Slade, Dionne, Underwood and Buchbinder2014; Vogel et al. Reference Vogel, Zwolinsky, Griffiths, Hobbs, Henderson and Wilkins2019), a 70% agreement rate is accepted for a valid consensus.

This study used a modified Delphi expert consultation to: (1) identify current welfare issues affecting parrots in captivity, incorporating the perspectives of animal welfare experts and parrot sector professionals with relevant expertise; and (2) achieve expert consensus on priority welfare issues to guide future research and educational initiatives.

Materials and methods

Ethical status

This study received a favourable ethical opinion from the University of Lincoln’s Ethics Committee (2023_11911). Informed consent was obtained from all participants, who could voluntarily withdraw from the study at any time.

Study framing

In recognition of competing conceptions of animal welfare in the literature (see Fraser et al. Reference Fraser, Weary, Pajor and Milligan1997), we did not prescribe a single definition of animal welfare for study participants, instead allowing them to approach the study tasks from their own frames of reference. However, this study recognises that welfare issues can be conceived of both in terms of the inputs to the animal (e.g. husbandry, environment, and management factors) as well as outputs (i.e. animal-level outcomes indicating how the animal responds), and this is reflected in the lists of generated welfare issues. The term ‘parrots’ referred to the known extant 398 species of parrot or ‘psittacine’ in the order Psittaciformes (Wright et al. Reference Wright, Schirtzinger, Matsumoto, Eberhard, Graves, Sanchez, Capelli, Muller, Scharpegge, Chambers and Fleischer2008) housed in captive settings, including private homes or collections as pets, breeding or research facilities, rescue and/or rehabilitation centres, and zoological collections for conservation and display.

Survey population and recruitment

Inclusion criteria

Parrot experts and sector professionals were recruited as those with a breadth of knowledge and experience with parrots as a result of having either been engaged as avian veterinarians, behaviourists or researchers working in parrot welfare (e.g. parrot welfare, cognition, and behaviour scientists), or who had at least three years’ experience working in the parrot sector (e.g. in housing, care, selling, breeding, rehabilitation, rehoming, education or law enforcement of captive parrots). All participants were required to be over 18 years of age.

Participant recruitment

Delphi studies have been conducted with participant pools ranging from seven to 100 experts (Iqbal & Pipon-Young Reference Iqbal and Pipon-Young2009). As a rule of thumb, Clayton (Reference Clayton1997) suggested between 5–30 individuals depending on whether groups are homogeneous or heterogeneous. In our study, the expert population was considered homogeneous concerning the topic but heterogeneous in terms of professional roles, so we sought to recruit around 30 experts. This target also considered potential participant drop-out, a recognised limitation of the Delphi methodology, thereby expediting chances for a suitable sample size (Donohoe & Needham Reference Donohoe and Needham2009).

Recruitment of experts and sector professionals began by building a list of contacts of experts and sector professionals in academia, research, veterinarian, zoo, and rescue settings known to members of the research team. Ninety-three individuals were identified globally and contacted via email or social media with an invitation to participate in the study. Snowball sampling was also employed whereby contacted individuals were invited to circulate the study invitation to others in their network. Of those contacted, 26 individuals consented to join the study.

Study phases

This study consisted of three iterative phases: preliminary review of the literature to inform survey development; online priority identification surveys; and online workshops.

Preliminary review of the literature

Whilst previous Delphi studies have relied upon participants to identify welfare issues in early rounds (e.g. via online discussion boards; Rioja-Lang et al. Reference Rioja-Lang, Bacon, Connor and Dwyer2019a,Reference Rioja-Lang, Bacon, Connor and Dwyerb), we chose to adopt the approach used by Keeling et al. (Reference Keeling, Winckler, Hintze and Forkman2021) and Whittaker et al. (Reference Whittaker, Golder-Dewar, Triggs, Sherwen and McLelland2021), where an informal review of the scientific literature was performed to establish a preliminary list of captive parrot welfare issues. Google Scholar, PubMed, Web of Science, and the University of Lincoln’s online research repository were searched using keywords of ‘welfare’, ‘nutrition’, ‘health’, ‘environment’, and ‘behaviour’ in connection with the words, ‘parrot’, ‘Psittacine’ or ‘Psittaciformes’. Citations within papers were explored as well as species-specific case studies. Overall, 188 scientific articles and books were screened, leading to the compilation of a list of 28 welfare issues (Table 1).

Table 1. The initial unranked list of parrot welfare issues identified through an informal literature review and presented to participants (n = 26) in the first online survey round

1 Indicates peer-reviewed journal publications;

2 specifies if these were literature reviews;

3 indicates books or book chapters;

4 denotes conference proceedings, doctoral theses, or veterinary magazine publications.

Priority identification surveys

Two priority identification surveys (Surveys 1 and 2) were hosted on the JISC Online Survey platform from May–July 2023 (see Supplementary material). Survey questions were designed by the research team and piloted prior to study commencement to refine question structure and clarity.

Survey 1 collected participant demographic information (age, gender, occupation, highest level of education and years of experience with captive parrots) and presented participants with the 28 welfare issues identified from the informal literature review (Table 1). Participants were asked to rank the 28 welfare issues according to three criteria, adopted from Rioja-Lang et al. (Reference Rioja-Lang, Bacon, Connor and Dwyer2019a,Reference Rioja-Lang, Bacon, Connor and Dwyerb), as follows:

  • Severity –the severity in which the welfare concern is likely to or commonly presents in the participant’s opinion;

  • Duration –the duration in which the welfare concern is likely to or commonly affects the individual in the participant’s opinion;

  • Prevalence –the perceived proportion of affected individuals in the participant’s opinion.

Issues were ranked on a six-point scale as follows: 1 = mild to 6 = debilitating (severity); 1 = fleeting to 6 = the entire duration of the individual’s life (duration); and 1 = rare to 6 = universally present in the population (prevalence). Rank questions were mandatory, with optional open-ended response questions after each issue to allow participants to provide commentary on their ranking if desired. At the end of Survey 1, participants were provided with the opportunity to add any new welfare issues, rank according to the criteria and share commentary. Out of the 93 individuals contacted, 26 participants completed Survey 1, representing a response rate of 28%.

Upon preliminary analysis of Survey 1, several participants provided valuable additional feedback regarding the initial list of welfare issues. As a result, a sub-survey (Survey 1B) was developed to include eight additional welfare issues (Table 2) and four re-described welfare issues for participants to rank according to the criteria and provide commentary if they so desired. Survey 1B was sent to all who had completed survey 1 and was completed by 12 participants.

Table 2. New captive parrot welfare issues added by participants in issue prioritisation survey 1 (n = 26) and included in survey 1B (n = 12)

Participants’ rankings of each issue from Surveys 1 and 1B were downloaded to Microsoft Excel® and the mean rank score in terms of severity, duration, and prevalence was calculated for each welfare issue. All welfare issues with a mean response score of 4 or more were included in the second survey round (Survey 2). These are listed from highest ranking issue to lowest in Table 3.

Table 3. Mean (± SD) scores and rank order for parrot welfare issues scoring at least 4.0 or above for severity, duration and prevalence after survey rounds 1 (n = 26) and 1B (n = 12)

Survey 2 was sent to those who had completed Survey 1 and was completed by 14 participants. Participants were presented with the list of welfare issues carried forward within each category (severity, duration and prevalence) and asked whether they:

  1. (a) agreed with the ranking of the welfare issue;

  2. (b) disagreed with the ranking of the welfare issue as it should be higher or;

  3. (c) disagreed with the ranking of the welfare issue as it should be lower.

Analysis of survey responses

Participant agreement on the ranking placements for the welfare issues in Survey 2 was analysed using Fleiss Kappa in R Studio (R Studio Team 2023).

Open responses provided by participants in Surveys 1 and 2 were processed with deductive content analysis to identify recurrent themes raised by participants in justifying their rankings (Elo & Kyngäs Reference Elo and Kyngäs2008). This analysis was conducted to obtain the literal meaning of participants’ responses, rather than creating interpretations or inferring wider meanings. Within this process, similarities in responses were grouped and described under a set of themes. Recurrence of theme use across participant responses was noted to generate a count of prevalence of themes referenced across participants. Minor spelling errors within comments were edited for presentation.

Online workshops

The final phase of the study consisted of two 2-h online workshops conducted over Microsoft Teams® in November 2023. Those who completed Survey 2 (n = 14) were invited to participate. Of these, seven participants attended the workshops (n = 3 in one, n = 4 in the other; two workshops were held to accommodate participant availability across time zones). Workshops were facilitated by RC and BV. Discussions focused first on the welfare issues in terms of their severity, duration and prevalence. During the workshops, participants discussed: whether they concurred with the rank order from previous stages of the study; whether issues should be re-ordered; and whether any issues had been overlooked. Once participants agreed on the final rankings for severity, duration, and prevalence, they worked to generate a top 10 highest priority list overall. Consensus was deemed to have been achieved during the workshop discussions when each participant verbally confirmed agreement on the issues and their respective rank orders for each of the final four lists of severity, duration, prevalence, and top 10 overall.

As the workshop was conducted twice with two sub-groups of participants, the agreed rankings from the first workshop were shared to participants in the second workshop via email prior to commencement of the second workshop. Participants in the second workshop were encouraged to take these results into account during their discussions. Again, consensus was considered to have been reached when each participant agreed on the rank order for each category. Final agreed lists from workshop 2 were then re-shared via email with participants from workshop 1, who were asked to indicate their agreement or disagreement with the final lists. This approach allowed us to assess the level of consensus reached among all seven workshop participants.

Results

Demographics of starting participant pool

We present broad descriptions of the demographic characteristics of the participants who shared their views in Survey 1 but do not provide a detailed breakdown of demographics at subsequent phases to protect participant anonymity, though we note that expert roles remained varied in later study phases. Twenty-six experts and sector professionals completed Survey 1; these were predominantly veterinarians (46%), zoo affiliates (19%) or academics (15%), followed by behaviourists (8%), animal welfare public affairs and publishing personnel (8%), and those holding non-animal roles at the time of the study but who had previous and recent extensive parrot experience (4%). Most participants had professional qualifications (34%; e.g. DVM, MD, DO, JD) or postgraduate degrees (31%; Master’s or PhD); seven (27%) had a bachelor’s degree and two (8%) participants held other qualifications. Most had between 3–10 (31%) or 11–20 (27%) years of experience working with parrots; 19% had worked with parrots for 21–30 years and nearly a quarter (23%) had over 30 years of work experience. Participants were predominantly female (65%), between the ages of 25–34 and 35–44 (23% each), and resided in the UK (46%) or the USA (34%). By the workshops round, four participants were female and three were veterinarians.

Surveys 1 and 1B

Of the 36 welfare issues (28 from the initial list plus the additional eight contributed by participants in Survey 1; see Tables 1 and 2), 24 issues scored a mean response score of 4 or more for severity, 27 for duration, and 16 for prevalence; these were carried forward into Survey 2 (Table 3).

Of the original participant pool, 18 participants provided commentary to justify their rankings, with a total of 192 comments left by participants across Surveys 1 and 1B. These comments touched upon four key topics in their focus: ‘behaviour’ (31% of comments referencing behaviour-related issues), ‘health’ (23%), ‘nutrition’ (22%), and ‘environment’ (18%), with the remaining 5% comments raising ‘miscellaneous’ issues not easily classified into the previous four). Within discussion of these topics, participants noted that they either: ‘unconditionally agreed’ that the issue had been ranked appropriately in terms of severity, duration, or prevalence; ‘circumstantially agreed’ (i.e. agreed about the issue but this was contingent on context or external factors), ‘disagreed’ that the issue was of importance; or were ‘unclear’ about the issue. Overall, participant commentary most often unconditionally or circumstantially agreed with the welfare issues presented (see Table 4 for themes and exemplar participant comments).

Table 4. Themes, description, and exemplar quotations from participants commenting on parrot welfare issues in priority issue ranking surveys 1 (n = 26) and 1B (n = 12)

Survey 2

Fleiss kappa results indicated poor agreement for ranking of the welfare issues across the lists in Survey 2 (K = 0.014 for severity, K = 0.017 for duration and K = 0.008 for prevalence) and this was also represented in feedback on ranks of specific issues. For example, regarding the severity ranking (7th) of ‘Parrot owner/carer unwillingness or inability to seek and/or implement veterinary and/or behavioural advice’, opinions were divided among agreement (57%), disagreement that the ranking should be lower (29%), and disagreement that it should be higher (14%). Opinions on duration rankings were similarly divided; for example, participants were split nearly evenly between agreement (43%) with the 6th ranked duration position of ‘improper breeding management, e.g. genetic testing, disease testing, husbandry management’ and disagreement that the ranking should be lower (50%; with 7.1% of participants suggesting that it should be higher). Opinions on prevalence were likewise often divided; for example, participant opinion was split on the prevalence ranking (11th) of ‘the promotion of seed and other incomplete whole diets’, with 36% agreeing with the current ranking, 21% disagreeing and indicating that the ranking should be lower, and 43% disagreeing and indicating that the ranking should be higher.

Online workshops

During the workshop discussions, participants assessed the ranked lists generated from Survey 2 to conclude their final lists and ranking of issues, modifying the order of the lists and the issues within them where they felt this was warranted. Participants also re-categorised welfare issues already present in the list under wider ‘umbrella’ terms (e.g. Nutrition – to include all nutritional related welfare issues) to encompass a wider variety of issues participants believed were interlinked. New welfare issues were also introduced at this stage (e.g. geriatric care, pain recognition). Re-categorisation of welfare issues was conducted with relative ease, with only minor disagreement among participants that was resolved during the workshops. For example, participants debated whether ‘Environmental ability to express behaviours’, ‘Development of normal behaviour’ and ‘Abnormal behaviours (ABs), abnormal repetitive behaviours (ARBs) and stereotypic behaviour’ should be re-categorised under one welfare issue, but after some discussion participants agreed that although certain aspects of these welfare issues were causational to one another, they were in themselves each notable welfare issues which may develop independently.

The final priority lists constructed by participants in the online workshops are presented in Table 5. Across the priority lists, welfare issues such as ‘environmental ability to express behaviours’, ‘nutrition’, ‘social isolation from conspecifics’, and ‘housing’ routinely ranked among the top three welfare issues. Consensus on the order of the top three welfare issues was reached without disagreement among participants. Among the remaining ranks, disagreement among participants was uncommon, with minimal dissention throughout the online workshops to establish rank order. By conclusion of the study, six of the seven participants verified their final agreement with all lists, resulting in 86% consensus amongst the experts and sector professionals. The remaining participant (from workshop 1) did not respond to the follow-up email to confirm or deny their agreement.

Table 5. Final captive parrot welfare issue rankings (in terms of severity, duration, prevalence, and overall) after an iterative modified Delphi expert consultation study (n = 26 experts at study start, 7 experts by study conclusion)

Discussion

This study sought to determine priority welfare issues among captive parrots using a modified Delphi approach. Twenty-six participants with parrot expertise were initially recruited, and through successive rounds, four lists were generated to establish the ten highest priority welfare issues facing parrots in captivity according to severity, duration, prevalence and overall. Participants highlighted some over-arching issues as well as more specific welfare considerations, such as the role of legislation as a contributing factor to poor welfare, suggesting a need for increased enforcement and regulation of pre-existing welfare laws rather than the formulation of new laws. Similarly, a lack of education among owners and veterinary professionals was seen to contribute to welfare issues in practice (e.g. nutrition, housing, social isolation). Across all rank categories, participants focused on nutrition (e.g. inadequate diet, poor feeding practices and lack of foraging opportunities), housing (e.g. inadequate perches, temperature, light availability and size and location of cage/aviary/enclosure), environmental ability to express behaviours, development of normal behaviour and social isolation from conspecifics. In this discussion, we focus on the issues that were included in the top 10 overall priority list, based on consensus from the online workshops.

1. Lack of (prospective and current) owner knowledge, education, and access to proper veterinary and/or behaviour support

Participants identified lack of owner knowledge and education as the leading parrot welfare issue overall. In this respect, the expert pool in this study aligns with Baukhagen and Engell’s (Reference Baukhagen and Engell2022) recommendation that “no one should be able to purchase a parrot of any size without demonstrating they have conducted research into the care, lifespan, and personality of said parrot.” Similar expert consultations have also highlighted lack of owner knowledge as a key precipitating factor affecting the welfare of other companion species (Rioja-Lang et al. Reference Rioja-Lang, Bacon, Connor and Dwyer2020) Others have also observed that prospective owners often lack awareness of the realities of parrot ownership, an issue amplified by the proliferation of inaccurate information (Hoppes & Gray Reference Hoppes and Gray2010; Grant et al. Reference Grant, Montrose and Willis2017). It is likely that this issue is one of several underlying, systemic factors affecting the welfare of companion parrots.

Parrots can exhibit behaviours which owners may find challenging, including vocalisations such as those described as ‘screaming’ and the display of apparently abnormal behaviours and stereotypies. Behaviours considered undesirable include aggression towards other members of the household such as attacking the partners of their caretakers, defaecation around the house, and the destruction of property; such behaviours can often lead to the bird being relinquished (Anderson Reference Anderson2003; Henley Reference Henley2018). Efforts to address these challenges could involve targeted education by leading charities, veterinary practices and pet stores for prospective owners, enabling them to make informed decisions regarding the choice of species that best suits their lifestyles, or reconsidering the choice of a parrot altogether. Increasing awareness of parrot welfare issues may also reduce relinquishment of parrots, decreasing the number of parrots within rescue centres (Engebretson Reference Engebretson2006; Baukhagen & Engell Reference Baukhagen and Engell2022).

In the UK, there is a notable scarcity of avian veterinarians, with approximately 104 identified avian veterinarians reported by The Parrot Society (Reference Tygesen and Forkman2023) in comparison to the estimated 1.6 million ornamental birds in the UK (FEDIAF 2023), potentially resulting in owners having to register with and travel farther to specialist veterinary practices. Goins and Hanlon (Reference Goins and Hanlon2021) found that 34% of exotic pet owners never sought veterinary care due to a lack of local veterinary services, even though four out of five veterinary professionals in small or mixed animal practices advised they were willing to treat exotic pets. Goins and Hanlon (Reference Goins and Hanlon2021) also suggested perceived lack of species-specific competence as a significant factor in failure to engage with appropriate veterinary services. This is supported by García-San Román et al. (Reference García-San Román, Quesada-Canales, Hernández, Suárez and Castro-Alonso2023), who suggested pet owners prefer veterinarians who specialise and have post-graduate training in their pet’s health issues.

2. Social isolation throughout life

Parrots are highly social species, largely living in flocks (except for solitary species such as the kākāpo, Strigops habroptilus), yet they are commonly housed alone in captive settings (Engebretson Reference Engebretson2006; Meehan & Mench Reference Meehan, Mench and Luescher2006). Individual housing contributes to adverse consequences for parrot behaviour and welfare: solo-housed parrots demonstrate increased stereotypic behaviour and less preening (Williams et al. Reference Williams, Hoppitt and Grant2017) and show increased biting and food stealing (Tygesen & Forkman 2023). Others have shown social isolation to be a contributing factor in feather-damaging behaviour in young and orange-winged Amazon parrots (Amazona Amazonica) (Meehan et al. Reference Meehan, Garner and Mench2003a; Garner et al. Reference Garner, Meehan, Famula and Mench2006). Social isolation has also been linked to shortened telomere length (associated with aging) in African grey parrots (Psittacus Erithacus), with the telomere length of single-housed birds at nine years of age being comparable to pair-housed birds 23 years older than themselves (Aydinonat et al. Reference Aydinonat, Penn, Smith, Moodley, Hoelzl, Knauer and Schwarzenberger2014).

3. Housing (e.g. Inadequate cage/aviary/enclosure size + unsuitable cage/aviary/enclosure location + appropriate temperature + lighting)

Participants in this study raised concerns regarding the living conditions of parrots, involving a restricted environment, improper cage location, ultraviolet light exposure and a lack of environmental control. In the UK, there is limited guidance for parrot housing requirements, except that associated with birds used for breeding and sale, which are covered by The Animal Welfare (Licensing of Activities Involving Animals) (England) Regulations (2018) (DEFRA 2018). This guidance specifies “For birds housed singly that spend the majority of their time in a cage, the cage width must be a minimum of twice flying wingspan, and the depth and height a minimum of one and a half times the birds flying wingspan. A pair of birds must have enough space to fly past each other with the depth being increased to a minimum of 2x flying wingspan.” Further, species-by-species requirements are covered by the statutory guidance for local authorities (DEFRA 2024). However, with respect to parrots in other circumstances, owners are simply expected to provide ‘a suitable environment’ according to the Animal Welfare Act (2006). In this study, participants maintained clear concerns that unsuitable, restrictive environments posed serious threats to parrot welfare. A restrictive environment can profoundly impact a parrot’s physical and mental well-being, hindering natural behaviours and locomotor activities, such as foraging, flight, grooming and play (Engebretson Reference Engebretson2006; van Zeeland et al. Reference Van Zeeland, Spruit, Rodenburg, Riedstra, van Hierden, Buitenhuis, Korte and Lumeij2009). Behavioural restriction may manifest in the development of repetitive oral behaviours (e.g. feather picking), locomotor stereotypies (e.g. route tracing) and inter- and intra-specific aggression (Meehan et al. Reference Meehan, Garner and Mench2004; Meehan & Mench Reference Meehan, Mench and Luescher2006), as well as physical disorders associated with a sedentary lifestyle such as atherosclerosis and obesity (Beaufrère Reference Beaufrère2013; Chitty Reference Chitty2023; Burns Reference Burns2024).

Cage location was also discussed as a threat to welfare; proximity to potential predators such as cats and dogs and other aversive stimuli have been linked to stress-induced abnormal behaviours such as feather picking or plucking and to excessive vocalisation (Bergman & Reinisch Reference Bergman, Reinisch and Luescher2006; Garner et al. Reference Garner, Meehan, Famula and Mench2006; Jayson et al. Reference Jayson, Williams and Wood2014). Improper cage placement can also trigger expression of fear, including fear-based aggression and hypervigilance, leading to undesirable behaviours such as biting and ‘screaming’, escape attempts, and injury due to the bird’s inability to remove itself from potential danger (Wilson & Luescher Reference Wilson, Luescher and Luescher2006).

Participants also discussed concerns regarding inadequate exposure to ultraviolet (UV) light. There appears to be limited understanding of UV requirements among avian species, including parrots (Stanford Reference Stanford2006; Ross et al. Reference Ross, Gillespie, Hopper, Bloomsmith and Maple2013), despite its role in maintaining feather quality, calcium metabolism, vitamin D synthesis and colour perception (Stanford Reference Stanford2006; Berg & Bennett Reference Berg and Bennett2016; Baukhagen & Engell Reference Baukhagen and Engell2022). Further research is needed to determine UV requirements, for example, the optimal duration of UV exposure for captive parrots and distance from the light source for effective exposure. Baukhagen and Engell (Reference Baukhagen and Engell2022) suggest a potential link between vitamin D deficiency and mood, proposing that deficiency may lead to a depressed mood, as observed in humans (Parker et al. Reference Parker, Brotchie and Graham2017).

Participants also raised concerns regarding lack of control and predictability in the captive environment, highlighting the disparity between decision-making demands in the wild which engage a parrot’s mind and require significant mental effort and the potentially monotonous and predictable conditions associated with captivity (Mellor et al. Reference Mellor, McDonald Kinkaid, Mendl, Cuthill, van Zeeland and Mason2021). This discrepancy raises concerns for cognitive functioning: for example, Baukhagen and Engell (Reference Baukhagen and Engell2022) discussed the possibility that eliminating freedom to make choices may diminish a captive parrot’s cognitive abilities and change their neuroanatomy, as observed in other species such as captive songbirds (Tarr et al. Reference Tarr, Rabinowitz, Imtiaz and DeVoogd2009).

4. Environmental ability to express behaviours (e.g. provision of environmental enrichment, flight)

Captive environments limit opportunities to express behaviours that form the free-living parrot’s behavioural repertoire (Kalmer Reference Kalmer2011). For example, wild Puerto Rican Amazons (Amazona vittata) spend four to six hours per day foraging and are known to ingest the fruit, leaves, bark, vines, and/or other portions of at least 58 species of indigenous plants (Meehan & Mench Reference Meehan, Mench and Luescher2006). However, captive environments are often predictable in resource distribution and poor in physical and mental stimulation, leading to a reduction or prevention of natural behaviours (Miglioli & da Silva Vasconcellos Reference Miglioli and da Silva Vasconcellos2021).

Environmental enrichment aims to increase opportunity to express these natural patterns of behaviour and, in turn, may also reduce abnormal behaviours and stereotypies, discourage inactivity, provide mental stimulation, and decrease fear responses (Mason et al. Reference Mason, Clubb, Latham and Vickery2007; Rodríguez-López Reference Rodríguez-López2016). However, further study into variations of enrichment, such as flight and social play (Diamond et al. Reference Diamond, Eason, Reid and Bond2006; Rodríguez-López Reference Rodríguez-López2016), is warranted. Flight behaviour is often denied to varying degrees in captivity, and whilst enrichment to increase locomotion has been widely discussed (Meehan et al. Reference Meehan, Garner and Mench2004; Clyvia et al. Reference Clyvia, Faggioli and Cipreste2015; Assis et al. Reference Assis, Carvalho, Pereira, Freitas, Saad, Costa and Silva2016), specific flight enrichment techniques (e.g. free-flying) have yet to be explored fully in captive parrots, with current studies focusing on the use of free-flight in pre-release training activities (Woodman et al. Reference Woodman, Biro and Brightsmith2021; Franzone et al. Reference Franzone, de Araujo Porto Ramos, de Lima Kascher, de Azevedo and Sant’Anna2022).

5. Nutrition (i.e. how and what birds are fed, e.g. foraging, lack of species-specific diets, obesity)

Nutrition is one of the most challenging aspects of captive parrot care (Peron & Grosset Reference Peron and Grosset2013; Baukhagen & Engell Reference Baukhagen and Engell2022). The requirements for nutritional balance as well as trace nutrients have yet to be obtained for many species (see Kalmer et al. Reference Kalmer, Janssens and Moons2010; Peron & Grosset Reference Peron and Grosset2013) and poultry requirements remain the default when establishing captive diets (Koutsos et al. Reference Koutsos, Matson and Klasing2001; Peron & Grosset Reference Peron and Grosset2013). Whilst the importance of an ‘ancestral diet’ (i.e. flowers, fruits, nuts, seeds, grasses, insects and other plant material) for captive parrots has received some consideration, commercial feeds neither reflect this nor current understanding of parrot nutrition (Koutsos et al. Reference Koutsos, Matson and Klasing2001; Baukhagen & Engell Reference Baukhagen and Engell2022). For instance, commercial seed mixes remain commonplace and are often misleadingly marketed as ‘complete’ diets suitable across species, leaving specialist feeders such as nectivorous species, including lories (loriinae) and lorikeets (Trichoglossus moluccanus), particularly at risk (Ullrey et al. Reference Ullrey, Allen and Baer1991; Gelis Reference Gelis2011; Brightsmith Reference Brightsmith2012).

The consequences of feeding poorly designed seed mixes to parrots can be severe, due primarily to their high levels of fat and protein and lack of vitamins A, D, K and E, calcium, and essential amino acids such as lysine and methionine (Harrison & McDonald Reference Harrison, McDonald, Harrison and Lightfoot2006; Hess Reference Hess2020). Inappropriate diet formulation can result in disorders such as obesity, atherosclerosis, fatty liver disease, and deficiencies in key vitamins and minerals required for normal bodily function (see Hess Reference Hess2020). For example, chronically low levels of vitamin A (hypovitaminosis A) can result in respiratory tract disease (Zwart & Samour Reference Zwart and Samour2021), feather picking, skin problems, and overall decline in feather growth and quality (van Zeeland et al. Reference Van Zeeland, Spruit, Rodenburg, Riedstra, van Hierden, Buitenhuis, Korte and Lumeij2009; Peron & Grosset Reference Peron and Grosset2013; Samour Reference Samour2015).

Our participants also discussed nutrition as a welfare issue in relation to how parrots receive their food. Foraging – which includes the search for food, selection, procurement, manipulation, and consumption – is often restricted in captivity, with captive diets contributing to reduced feeding times (van Zeeland et al. Reference Van Zeeland, Schoemaker, Ravesteijn, Mol and Lumeij2013, Reference Van Zeeland, Schoemaker and Lumeij2023). For example, whilst pellets may be a better nutritional alternative to seed diets (as they provide a more balanced diet than may be achieved by selecting from a seed mix), they offer little variety in texture, colour and flavour, significantly reducing overall feed time (van Zeeland et al. Reference Van Zeeland, Schoemaker and Lumeij2023). Wild parrots typically spend between 4 and 8 h per day on foraging, whereas parrots in captivity often spend less than 1 h per day foraging (Baukhagen & Engell Reference Baukhagen and Engell2022; Beekmans et al. Reference Beekmans, Vinke, Maier, de Haan, Schoemaker, Rodenburg, Kooistra and van Zeeland2023).

Parrots have been found to work for food even when identical food is freely available (for example, contra-freeloading, see van Zeeland et al. Reference Van Zeeland, Schoemaker and Lumeij2023), suggesting they value the behaviours involved in selecting and acquiring food. The inability to carry out species-specific feeding behaviours may result in the expression of abnormal behaviours and stereotypies, including oral stereotypies, such as wire chewing, tongue playing, food manipulation or dribbling, and feather-damaging behaviours (Meehan & Mench Reference Meehan, Mench and Luescher2006; van Zeeland et al. Reference Van Zeeland, Schoemaker, Ravesteijn, Mol and Lumeij2013). Foraging enrichment can reduce the occurrence of these behaviours as it stimulates exploration and can significantly increase time spent foraging up to 2–3 h a day (Meehan et al. Reference Meehan, Millam and Mench2003b; Beekmans et al. Reference Beekmans, Vinke, Maier, de Haan, Schoemaker, Rodenburg, Kooistra and van Zeeland2023).

6. Development of normal behaviour (e.g. parental deprivation/hand-rearing of chicks, sourcing/acquisition; causing downstream effects throughout life)

Wild parrots would normally develop patterns of behaviour in a social environment, initially made up of their parents and siblings, but in time with the wider social group. This allows development of important behaviours, such as species and sexual recognition, feeding preferences, and behavioural skills to respond to social challenges. Parent rearing in captivity can mimic aspects of this early environment, but hand-rearing is commonly practiced in young, captive parrots. Hand-rearing involves separating the parrot chick from its parents (typically having been artificially incubated) and deprives the young bird of contact which allows for normal social and sexual development. As a result, hand-reared birds often show a preference for contact with humans, imprinting socially and sexually (Fox Reference Fox and Luescher2006). Handling neonatal parrots can also compromise their ability to respond to stress (Collette et al. Reference Collette, Millam, Klasing and Wakenell2000). Baukhagen and Engell (Reference Baukhagen and Engell2022) suggest premature weaning has the potential to elicit lifelong negative behaviours such as increased anxiety and aggression; considering parrots’ longevity, this poses a significant welfare concern. Upon reaching adulthood, hand-reared parrots show inappropriate reproductive behaviours and abnormal sexual behaviours (such as masturbation and regurgitation onto objects or the caregiver), hypersexuality, and chronic egg laying (i.e. the laying of eggs excessively and continuously beyond what is considered normal for their species; Schmid et al. Reference Schmid, Doherr and Steiger2006). Behaviours such as chronic egg laying can have detrimental effects on birds’ physical health, including depletion of calcium reserves and increased risk of becoming egg bound, which may result in potential reproductive complications or even death (Scagnelli & Tully Reference Scagnelli and Tully2017).

7. Lack of a ‘life plan’ for birds (e.g. end-of-life planning impacting decisions for euthanasia or rehoming + availability of qualified parrot rescues, dealing with unwanted birds)

Long lifespan of many parrot species, coupled with their challenging husbandry requirements, can result in parrots moving between multiple homes throughout their lifetime (Young et al. Reference Young, Hobson, Bingaman Lackey and Wright2011; Grant et al. Reference Grant, Montrose and Willis2017). Consequently, participants identified a ‘lack of a ‘life plan” by owners for their parrots as a welfare concern. Anderson (Reference Anderson2003) found that only 16% of owners indicated their birds were included in their formal wills; 44% had informal plans with family and friends in the event they could no longer care for their parrot, with parrots commonly relinquished following death of their primary owner/carer.

Hoppes and Gray (Reference Hoppes and Gray2010) suggested “large parrots often lose their homes because their owner is woefully ignorant of what it takes to adopt a parrot”, that parrots “often scream, destroy their own feathers, bite, attack the partners of their caretakers, create a huge mess around their cage, and destroy property”, and “require a huge commitment in time and money”. Similarly, Tygeson and Forkman (2023) found that excessive chirping or whistling by parrots was the largest issue of owner concern and that owners with a poor relationship with their parrot were more likely to abandon or relinquish their birds. Our participants, however, noted most of these issues as being predictable and able to be planned for or mitigated through the education of owners.

Participants also shared concerns that some rescue organisations may be ill-equipped to handle large numbers of unwanted parrots. Overstocking is becoming a significant welfare concern for rescue centres, primarily as the goal of most shelters is to provide short-term, temporary housing for birds until an appropriate home can be found (Miller & Zawistowski Reference Miller and Zawistowski2013). Possible solutions in addressing rehoming issues include improved owner education and support, as well as breeding bans to reduce the number of new individuals coming into the trade (Peng & Broom Reference Peng and Broom2021; Baukhagen & Engell Reference Baukhagen and Engell2022).

8. Abnormal behaviours, abnormal repetitive behaviours and stereotypic behaviour

Captivity often denies parrots the opportunity to fully engage in behaviours observed in the wild, with constraints placed upon natural behaviours, including social interactions, flight, foraging and maintenance behaviours such as bathing and preening (Greenwell & Montrose Reference Greenwell and Montrose2017). The consequence of these restrictions can be associated with the expression of apparently abnormal and/or repetitive activities such as stereotypies (Mellor et al. Reference Mellor, Brilot and Collins2017). In this discussion, we recognise that the term ‘abnormal’ can be challenging to consistently apply within the context of captive animal populations and interest groups differ in how they define and interpret such activities in terms of animal welfare. These perceptions differ even within academic communities focusing on this area, so a degree of caution should be exercised where different communities ascribe this term to behaviour, particularly where ‘abnormal’ is used as a proxy for ‘unnatural’ or ‘undesirable’. Nevertheless, there are behaviours that can appear functionless within the context in which they occur and may, in turn, reflect welfare concerns. The various uses of the term and their relationship with animal welfare has been considered elsewhere (e.g. Cooper & McGreevy Reference Cooper, McGreevy and Waran2002; Mason & Lathom Reference Mason and Latham2004), and for our Delphi approach we did not seek to restrict our participants by imposing a definition of ‘abnormal behaviour’, but rather we sought to allow them to use the term as per the culture of their specialisms. Whilst this carried the risk of inconsistent application of the term, participants were generally consistent in those behaviours they described as abnormal, suggesting some heuristic or practical value to the term.

In parrots, the most common forms of these behaviours include feather plucking, biting, and excessive vocalisations or ‘screaming’ (Mellor et al. Reference Mellor, Brilot and Collins2017). Some handlers and owners consider these behaviours to be relatively normal or adaptive, facilitating circulation or aiding digestion in the absence of other more ‘normal’ patterns of behaviour such as foraging or flying (Van Zeeland et al. Reference Van Zeeland, Spruit, Rodenburg, Riedstra, van Hierden, Buitenhuis, Korte and Lumeij2009; Williams et al. Reference Williams, Hoppitt and Grant2017). For example, feather-damaging behaviours, which are present in an estimated 10–17% of the captive population, have been suggested as a coping strategy for negative affective states such as stress or boredom, as a consequence of living in a sub-optimal, unpredictable or uncontrollable environment (Van Zeeland et al. Reference Van Zeeland, Schoemaker, Ravesteijn, Mol and Lumeij2013; Mahdavi et al. Reference Mahdavi, Abdi-Hachesoo, Ansari-Lari and Haddad-Marandi2023). There is, however, limited direct evidence of coping effects of these behaviours and further research into the development of these behaviours and consequences for the bird’s psychological state is needed. Of further note is that whilst the development of these behaviours is commonly associated with sub-standard living environments, they can become engrained and ultimately ‘detached’ from the animal’s welfare state, even when the initial factors that provoked the behaviour have since been corrected; consequently, using such behaviours as absolute welfare indicators can be fraught with issues (see Cooper et al. Reference Cooper, Odberg and Nicol1996; Mason & Latham Reference Mason and Latham2004). Nevertheless, previous sections of this discussion have already indicated relationships between abnormal behaviours and other welfare issues, including rearing environment, limited environmental enrichment, restrictive housing, and inappropriate social grouping in parrots (Meehan et al. Reference Meehan, Garner and Mench2004; Garner et al. Reference Garner, Meehan, Famula and Mench2006).

9. Lack of (parrot) education to the veterinary profession

While pet owners consider and expect veterinarians to be their primary source of information regarding animal care (Coe et al. Reference Coe, Adams and Bonnett2008), in this study, lack of parrot-specific education within the veterinary profession was also identified in the priority list of welfare concerns. A study of UK veterinarians by Wills and Holt (Reference Wills and Holt2020) identified that knowledge of and confidence in treating, diagnosing and anaesthetising exotic pet species was significantly less than for cats and dogs. Therefore, unless a veterinarian personally takes interest in avian medicine (e.g. through self-study, self-selected placements available in the final years of study, or pursuit of continual professional development [CPD]; Marino Reference Marino2020), they may be underqualified to care for avian patients.

10. Insufficient application/enforcement of legislation and/or regulation

In the UK, animal welfare is governed by several laws, most notably the Animal Welfare Act (2006). However, the enforcement of these and other laws was deemed inadequate by our participants, and others suggest that there remains considerable scope for improved enforcement (Rudloff Reference Rudloff2017). For example, the All-Party Parliamentary Group for Animal Welfare (All Party Parliamentary Group for Animal Welfare (APGAW) 2022) identified four barriers hindering the effective enforcement of animal welfare law including: limited resources/trained inspectors; inconsistency in enforcement; lack of training/experience among inspectors; and lack of knowledge sharing among local councils and other authorities responsible for animal protection. Compounding the issues of insufficient enforcement of broader animal welfare legislation is a lack of clear and consistent husbandry guidelines to support parrot welfare. As such, the development of evidence-based, species-specific guidelines to supplement existing legislation and support enforcement would be beneficial.

Final notes

Interestingly, by the end of the study diseases ranked lower in priority or were excluded entirely from priority lists (despite the representation of veterinarians in the sample), with experts suggesting that the prevalence of certain diseases in the captive parrot population has been in decline. It is worth noting however that disease testing in the pet parrot population is relatively uncommon and, as such, further research may be warranted to discern trends in disease prevalence. Geriatric care and pain assessment also emerged as areas of concern amongst the experts in the study, securing a place among the priority lists for severity, duration and prevalence, but not top ten overall.

Study considerations

We acknowledge several limitations that should be considered in the interpretation of this study’s findings. Firstly, the purposive recruitment of parrot experts known to the research team introduced a geographical bias to the study population, as most participants were from the US and the UK. As such, the study’s outcomes are unlikely to be universally applicable to captive parrot conditions across the world and caution should be exercised before generalising the identified welfare issues to all companion and other captive parrot contexts.

Purposive sampling methods are commonly carried out in Delphi studies as they rely upon the input of knowledgeable individuals from a particular field. Purposive sampling allows researchers to select individuals who possess the relevant expertise and experience, ensuring that participants are well-qualified to provide informed opinions on the subject under investigation, a consideration which is crucial for achieving consensus (Brady Reference Brady, Leonard and Glenwick2015). Here, the expert pool was increasingly composed of veterinarians as the study progressed, suggesting that veterinary viewpoints were over-represented against perspectives from academics, scientists, and other professional roles. We also acknowledge that, like any study wherein the aims are to understand people’s perspectives and generate discussion, we expect several cognitive biases were at play. For example, during the workshop phase, there is a chance that participants without postgraduate degrees (e.g. PhD or DVM) may have felt pressured to defer to the voices of the other participants (authority or expert bias); more generally such discussions may be challenged by the pressure to conform to the group (group think) and share perspectives believed to be acceptable to others ‘at the table’ (social desirability bias) (for further discussion, see Dror et al. Reference Dror, Kukucka, Kassin and Zapf2018). Incorporating alternative recruitment approaches, like random or stratified sampling, could have provided a more diverse representation of parrot welfare experts from various regions, potentially improving the study’s applicability to diverse parrot situations worldwide (Paré et al. Reference Paré, Cameron, Poba-Nzaou and Templier2013). However, the effectiveness of non-purposive recruitment methods relies on randomly selected animal welfare experts possessing a relevant knowledge base in captive parrot welfare.

An additional limitation to the study was the splitting of the online workshop into two sessions. Online engagement approaches (e.g. online focus groups, workshops) allow for larger scale participant engagement as they are scalable and do not require travel to a central location (Williams et al. Reference Williams, Clausen, Robertson, Peacock and McPherson2012; Khodyakov et al. Reference Khodyakov, Gran, Denger, Kinnett, Martin, Peay and Coulter2020), but due to participants’ varying schedules across differing time zones the decision was made to conduct two online workshops. While this was intended to enhance accessibility and increase participation numbers in the final round, it altered the dynamics of the consensus-building process. Notably, the division meant participants in the separate workshops did not interact directly, potentially leading to different perspectives and insights in each group (Barrios et al. Reference Barrios, Guilera, Nuño and Gómez-Benito2021). One considered solution entailed hosting a third round of online workshops for each workshop group, allowing participants to thoroughly discuss the rank results determined in the previous round by each workshop group. However, given the known limitation of participant drop-out in Delphi studies (Donohoe & Needham Reference Donohoe and Needham2009) and the diminishing number of participants, this option was deemed unfeasible. Therefore, efforts were made to address potential discrepancies between workshop sessions by providing participants of workshop 1 with feedback on the results of workshop 2 via email.

Finally, we note that although study aims were framed to generate priority welfare issues affecting the wider captive parrot population across varied contexts (e.g. in homes, rescues, and in wildlife collections), several issues prioritised by our expert pool either exclusively (e.g. owner education) or perhaps especially (e.g. lack of a ‘life plan’) pertained to parrots kept as pets. However, given the presence of several issues spanning contexts of parrot-keeping (such as abnormal behaviours, issues around specialised veterinarian training, and regulatory considerations), we hope this study’s findings are useful in the consideration of welfare issues for parrots kept in a range of captive contexts.

Animal welfare implications

To our knowledge, this study presents the first prioritisation of parrot welfare issues using expert consensus. While we initially sought to achieve expert consensus on welfare issues facing the wider captive parrot population, the expert population in this study highlighted several issues either especially pressing or unique to the pet parrot population. Through a modified Delphi approach, parrot welfare and sector professionals identified behavioural, nutritional, and housing issues as among those most pressing to address. These concerns were often noted to be deeply interconnected (e.g. the combination of inadequate nutrition and a sedentary lifestyle contribute to the development of obesity) and, as such, require multi-layered solutions. The need for improved owner and veterinarian knowledge emerged as a primary barrier to improving parrot welfare. We suggest more work is required to address the barriers in the recruitment and training of avian-interested veterinarians, including increased attention to the development of avian-specific modules and the continuing professional development of practicing veterinarians in parrot behaviour and welfare. Similarly, we recommend increased research attention on parrot owner understanding of husbandry and welfare, so as to inform how to best design educational and supportive initiatives (e.g. design and dissemination of educational material on appropriate husbandry practices, costs associated with parrot ownership, the required long-term commitment, the welfare implications of poor husbandry and breeding practices, and the exploration of more participatory engagement strategies which work with owners to co-develop strategies to improve parrot welfare).

In many cases, best practice for care and management remains unclear (e.g. nutritional requirements for many parrot species). Based on our findings, we suggest that in addition to continued research on behavioural welfare, research priorities for parrots should focus on a better understanding of the nutritional requirements of captive parrots through studies of wild counterparts, coupled with direct research into nutritional impacts of species-specific diets, establishment of appropriate care plans for geriatric parrots, and pain assessment and management. Finally, while enforcement of existing legislation was noted as a contributing factor to parrot welfare, we note that legislative change is a slow-moving process. We therefore suggest the development of species-specific husbandry guidelines, beginning with the more widely kept species, to more rapidly support the enforcement of existing laws.

Supplementary material

The supplementary material for this article can be found at http://doi.org/10.1017/awf.2024.57.

Acknowledgements

We extend our heartfelt thanks to the 26 individuals who participated in various stages of this study, and to Drs Zoe Demery and Ambrose Tinarwo who reviewed and gave feedback on this project as part of RC’s examination for her Master’s by Research.

Competing interest

None.

Footnotes

Author contributions: Conceptualisation: RC, JC, BV; Data curation: RC; Formal analysis: RC, JC, BV; Methodology: RC, JC, BV; Investigation: RC, JC, BV; Project administration: RC, JC, BV; Supervision: JC, BV; Visualisation: RC, JC, BV; Writing – original draft: RC, JC, BV; Writing – review & editing: RC, JC, BV

References

Acharya, R and Rault, JL 2020 Risk factors for feather-damaging behaviour in companion parrots: A social media study. Journal of Veterinary Behaviour 40: 43–39. https://doi.org/10.1016/j.jveb.2020.07.003CrossRefGoogle Scholar
All Party Parliamentary Group for Animal Welfare 2022 Improving the effectiveness of animal welfare enforcement. https://apgaw.org/wp-content/uploads/2022/08/Improving-Animal-Welfare-Enforcement-Report.pdf (accessed 5 December 2023).Google Scholar
Anderson, P 2003 A bird in the house: An anthropological perspective on companion parrots. Society & Animals 11(4): 393418. https://doi.org/10.1163/156853003322796109CrossRefGoogle Scholar
Andrews, JE 2022 The behavioural biology of parrots. In: Rose, P (ed) The Behavioural Biology of Zoo Animals. CRC Press: Boca Raton, FL, USA.Google Scholar
Animal Welfare Act 2006 c 45. https://www.legislation.gov.uk/ukpga/2006/45/contents (accessed 17 December 2023).Google Scholar
Arluke, A, Sanders, C and Morris, P 2015 Mit Tieren denken: Die Soziologie der nicht-menschlichen Tiere in der Gesellschaft. In: Brucker, R, Bujok, M, Mütherich, B, Seeliger, M and Thieme, J (eds) Das Mensch-Tier-Verhältnis pp 79105. Springer: Wiesbaden, Germany. https://doi.org/10.1007/978-3-531-94110-3_4 [Title translation: Thinking with animals. The sociology of nonhuman animals in society; The human-animal relation].CrossRefGoogle Scholar
Assis, V, Carvalho, T, Pereira, V, Freitas, R, Saad, C, Costa, A and Silva, A 2016 Environmental enrichment on the behaviour and welfare of cockatiels (Nymphicus hollandicus) Arquivo Brasileiro de Medicina Veterinária e Zootecnia, 68(3): 562570. https://doi.org/10.1590/1678-4162-8747CrossRefGoogle Scholar
Aydinonat, D, Penn, DJ, Smith, S, Moodley, Y, Hoelzl, F, Knauer, F and Schwarzenberger, F 2014 Social isolation shortens telomeres in African Grey parrots (Psittacus erithacus Erithacus) PLoS One 9(4): e93839. https://doi.org/10.1371/journal.pone.0093839CrossRefGoogle ScholarPubMed
Balsamo, G, Maxted, AM, Milda, JW, Murphy, JM, Wohrle, R, Edling, TM, Fish, PH, Flammer, K, Hyde, D, Kutty, PK, Kobayashi, M, Helm, B, Oiulfstad, B, Richie, BW, Stobierski, MG, Ehnert, K and Tully, TN Jr 2017 Compendium of measures to control Chlamydia psittaci infection among humans (Psittacosis) and pet birds (Avian Chlamydiosis). Journal of Avian Medicine and Surgery 31(3): 262282. https://doi.org/10.1647/217-265CrossRefGoogle ScholarPubMed
Bandyopadhyay, S 2017 Systemic clinical and metabolic diseases. In: Samanta, I and Bandyopadhyay, S (eds) Pet Bird Diseases and Care pp 167252. Springer Singapore: Singapore.CrossRefGoogle Scholar
Barrios, M, Guilera, G, Nuño, L and Gómez-Benito, J 2021 Consensus in the delphi method: What makes a decision change? Technological Forecasting and Social Change 163: 120484. https://doi.org/10.1016/j.techfore.2020.120484CrossRefGoogle Scholar
Baukhagen, H and Engell, M 2022 Avian cognition and the implications for captive parrot welfare. Animal Welfare 31: 257267. https://doi.org/10.7120/09627286.31.2.009CrossRefGoogle Scholar
Beaufrère, H 2013 Avian atherosclerosis: Parrots and beyond. Journal of Exotic Pet Medicine 22(4): 336347. https://doi.org/10.1053/j.jepm.2013.10.015CrossRefGoogle Scholar
Beekmans, M, Vinke, C, Maier, A, de Haan, I, Schoemaker, N, Rodenburg, T, Kooistra, H and van Zeeland, Y 2023 Increasing foraging times with appetitive and consummatory foraging enrichment in grey parrots (Psittacus erithacus). Applied Animal Behaviour Science 265: https://doi.org/10.1016/j.applanim.2023.105986CrossRefGoogle Scholar
Beernaert, LA, Pasmans, F, Van Waeyenberghe, L, Haesebrouck, F and Martel, A 2010 Aspergillus infections in birds: A review. Avian Pathology 39(5): 325331. https://doi.org/10.1080/03079457.2010.506210CrossRefGoogle ScholarPubMed
Berg, M and Bennett, A 2016 The evolution of plumage colouration in parrots: A review. Emu – Austral Ornithology 110(1): 1020. https://doi.org/10.1071/MU09076CrossRefGoogle Scholar
Bergman, L and Reinisch, US 2006 Comfort behaviour and sleep. In: Luescher, A (eds) Manual of Parrot Behaviour pp 5962. Blackwell Publishing: Iowa, USA.CrossRefGoogle Scholar
Boatright-Horowitz, SL 2020 Avian bornaviral ganglioneuritis: current debates and unanswered questions. Veterinary Medicine International 19. https://doi.org/10.1155/2020/6563723CrossRefGoogle Scholar
Brady, S 2015 The Delphi Method. In: Leonard, J and Glenwick, D (eds) Handbook of Methodological Approaches to Community-Based Research: Qualitative, Quantitative, and Mixed Methods pp 6168.: Oxford University Press: Oxford, UK.CrossRefGoogle Scholar
Brightsmith, D 2012 Nutritional levels of diets fed to captive amazon parrots: Does mixing seed, produce, and pellets provide a healthy diet? Journal of Avian Medicine and Surgery 26(3): 149160. https://doi.org/10.1647/2011-025R.1CrossRefGoogle ScholarPubMed
Burmeister, A, Drasch, K, Rinder, M, Prechsl, S, Peschel, A, Korbel, R and Saam, N 2022 The owner-bird relationship: Relevance for pet bird welfare. Animal Welfare 31(1): 137154. https://doi.org/10.7120/09627286.31.1.012CrossRefGoogle Scholar
Burns, K 2024 Key nutritional factors and obesity prevention in companion psittacine birds. Veterinary Clinics of North America: Exotic Animal Practice 27(1): 1329. https://doi.org/10.1016/j.cvex.2023.07.001Google ScholarPubMed
Carrasco, DC and Forbes, NA 2016 Aspergillosis: Update on causes, diagnosis and treatment. Companion Animal 21(1): https://doi.org/10.12968/coan.2016.21.1.50CrossRefGoogle Scholar
Chitty, J 2023 Approach to managing obesity in parrots. In Practice 45(8): 461474. https://doi.org/10.1002/inpr.360CrossRefGoogle Scholar
Clayton, M 1997 Delphi: A technique to harness expert opinion for critical decision-making tasks in education. Educational Psychology 17(4): 373386. https://doi.org/10.1080/0144341970170401CrossRefGoogle Scholar
Clyvia, A, Faggioli, A and Cipreste, C 2015 Effects of environmental enrichment in a captive pair of Golden Parakeet (Guaruba guarouba, Psittacidae) with abnormal behaviours. Revista Brasileira de Ornitologia 23: 309314. https://doi.org/10.1007/BF03544297CrossRefGoogle Scholar
Coe, J, Adams, C and Bonnett, B 2008 A focus group study of veterinarians’ and pet owners’ perceptions of veterinarian-client communication in companion animal practice. Journal of the American Veterinary Medical Association 233(7): 0721080. https://doi.org/10.2460/javma.233.7.1072CrossRefGoogle ScholarPubMed
Collette, J, Millam, J, Klasing, K and Wakenell, P 2000 Neonatal handling of Amazon parrots alters the stress response and immune function. Applied Animal Behaviour Science 66(4): 335349. https://doi.org/10.1016/S0168-1591(99)00098-2CrossRefGoogle ScholarPubMed
Cooper, JJ and McGreevy, P 2002 Stereotypic behaviour in the stabled horse; causes, effects and treatment. In: Waran, N (Ed) Welfare of the Horse. Pp 99–124. Kluwer Academic Press: The Netherlands.Google Scholar
Cooper, JJ, Odberg, FO and Nicol, CJ 1996 Limitations of the effect of environmental improvement in reducing stereotypic behaviour in bank voles (Clethrionomys glareolus). Applied Animal Behaviour Science 48: 237248.CrossRefGoogle Scholar
Cornejo, J, Taylor, R, Sliffe, T, Dierenfeld, ES, Bailey, CA and Brightsmith, DJ 2013 Nutritional and physical characteristics of commercial hand-feeding formulas for parrots. Zoo Biology 32: 469475. https://doig.org/10.1002/zoo.21079CrossRefGoogle ScholarPubMed
Cornejo, J, Dierenfeld, ES, Renton, K and Brightsmith, DJ 2021 Fatty acid profiles of crop contents of free-living psittacine nestlings and of commercial hand-feeding formulas. Journal of Animal Physiology and Animal Nutrition 105(2): 394405. https://doi.org/10.1111/jpn.13443CrossRefGoogle ScholarPubMed
Cornejo, J, Dierenfeld, ES, Renton, K, Bailey, CA, Stahala, C, Cruz-Nieto, J and Brightsmith, DJ 2022 Nutrition of free-living neotropical psittacine nestlings and implications for hand-feeding formulas. Journal of Animal Physiology and Animal Nutrition 106: 11741188. https://doi.org/10.1111/jpn.13749CrossRefGoogle ScholarPubMed
Cussen, VA and Mench, JA 2015 The relationship between personality dimensions and resiliency to environmental stress in Orange-Winged Amazon Parrots (Amazona amazonica), as indicated by the development of abnormal behaviours. PLOS One 10(6):111. https://doi.org/10.1371/journal.pone.0126170CrossRefGoogle Scholar
Department of Environment, Food and Rural Affairs (DEFRA) 2018 The Animal Welfare (Licensing of Activities Involving Animals) (England) Regulations 2018. https://www.legislation.gov.uk/uksi/2018/486/2021-09-10 (accessed 2 Oct 2024).Google Scholar
Department of Environment, Food and Rural Affairs (DEFRA) 2024 Statutory guidance Selling animals as pets licensing: statutory guidance for local authorities. https://www.gov.uk/government/publications/animal-activities-licensing-guidance-for-local-authorities/selling-animals-as-pets-licensing-statutory-guidance-for-local-authorities--2#minimum-standards (accessed 2 Oct 2024).Google Scholar
Diamond, J, Eason, D, Reid, C and Bond, A 2006 Social play in kakapo (Strigops habroptilus) with comparisons to kea (Nestor notabilis) and kaka (Nestor meridionalis). Behaviour 143(11): 13971423. https://digitalcommons.unl.edu/bioscibehavior/32 (accessed 17 April 2024).CrossRefGoogle Scholar
Donohoe, H and Needham, R 2009 Moving best practice forward: Delphi characteristics, advantages, potentials problems, and solutions. International Journal of Tourism Research 11(5): 415437. https://doi.org/10.1002/jtr.709CrossRefGoogle Scholar
Dror, IE, Kukucka, J, Kassin, SM and Zapf, PA 2018 When expert decision making goes wrong: Consensus, bias, the role of experts, and accuracyJournal of Applied Research in Memory and Cognition 7(1): 162163https://doi.org/10.1016/j.jarmac.2018.01.007CrossRefGoogle Scholar
Engebretson, M 2006 The welfare and suitability of parrots as companion animals: A review. Animal Welfare 15(3): 263276. https://doi.org/10.1017/S0962728600030475CrossRefGoogle Scholar
Elo, S and Kyngäs, H 2008 The qualitative content analysis process. Journal of Advanced Nursing 62(1): 107115. https://doi.org/10.1111/j.1365-2648.2007.04569.xCrossRefGoogle ScholarPubMed
FEDIAF 2023 FEDIAF Annual Report. FEDIAF Annual Congress: Brussels, Belgium. https://europeanpetfood.org/about/annual-report/ (accessed 2 April 2024).Google Scholar
Fogell, DJ, Martin, RO and Groombridge, JJ 2016 Beak and feather disease virus in wild and captive parrots: An analysis of geographic and taxonomic distribution and methodological trends. Archives of Virology 161: 20592074. https://doi.org/10.1007/s00705-016-2871-2CrossRefGoogle ScholarPubMed
Fox, R 2006 Hand-rearing: Behavioural impacts and implications for captive parrot welfare. In: Luescher, A (ed) Manual of Parrot Behaviour pp 8391. Blackwell Publishing: Iowa, USA.CrossRefGoogle Scholar
Franzone, V, de Araujo Porto Ramos, G, de Lima Kascher, L, de Azevedo, C and Sant’Anna, A 2022 Flight capacity and human aversion in captive Amazon parrots: Related factors and the effects of pre-releasing training. Applied Animal Behaviour Science 256: 111. https://doi.org/10.1016/j.applanim.2022.105772CrossRefGoogle Scholar
Fraser, D, Weary, DM, Pajor, EA and Milligan, BN 1997 A scientific conception of animal welfare that reflects ethical concerns. Animal Welfare 6(3): 187205.CrossRefGoogle Scholar
Frynta, D, Liskova, S, Bultmann, S and Burda, H 2010 Being attractive brings advantages: The case of parrot species in captivity. PLoS One 5(9): 19. https://doi.org/10.1371/journal.pone.0012568CrossRefGoogle ScholarPubMed
García-San Román, J, Quesada-Canales, O, Hernández, M, Suárez, S and Castro-Alonso, A 2023 Veterinary education and training on non-traditional companion animals, exotic, zoo, and wild animals: Concepts review and challenging perspective on zoological medicine. Veterinary Sciences 10(5): 357371. https://doi.org/10.3390/vetsci10050357CrossRefGoogle Scholar
Garner, J, Meehan, C, Famula, T and Mench, J 2006 Genetic, environmental, and neighbour effects on the severity of stereotypies and feather picking in Orange-Winged Amazon parrots (Amazona amazonica): An epidemiological study. Applied Animal Behaviour Science 96(1–2): 153168. https://doi.org/10.1016/j.applanim.2005.09.009CrossRefGoogle Scholar
Gaskins, LA and Bergman, L 2011 Surveys of avian practitioners and pet owners regarding common behaviour problems in psittacine birds. Journal of Avian Medicine and Surgery 25(2): 111118. https://doi.org/10.1647/2010-027.1CrossRefGoogle ScholarPubMed
Gelis, S 2011 A review of the nutrition of Lories and Lorikeets. AAVAC‐AAVMA Annual Conference. Canberra, Australia.Google Scholar
Goins, M and Hanlon, A 2021 Exotic pets in Ireland: 1. Prevalence of ownership and access to veterinary services. Irish Veterinary Journal 74(14): 114. https://doi.org/10.1186/s13620-021-00190-6Google ScholarPubMed
Grant, R, Montrose, V and Willis, P 2017 ExNOTic: Should we be keeping exotic pets? Animals 7(6): 47. https://doi.org/10.3390/ani7060047CrossRefGoogle ScholarPubMed
Greenwell, P and Montrose, V 2017 The grey matter: Prevention and reduction of abnormal behaviour in companion grey parrots (Psittacus erithacus). Journal of Veterinary Behaviour 20: 4451. https://doi.org/10.1016/j.jveb.2017.06.005CrossRefGoogle Scholar
Harrison, G and McDonald, D 2006 Nutritional considerations section II. In: Harrison, G and Lightfoot, T (eds) Clinical Avian Medicine pp 108140. Spix Publishing: Palm Beach, Florida, USA.Google Scholar
Henderson, E and Rubin, G 2012 Development of a community-based model for respiratory care services BMC Health Services Research 12(193). https://doi.org/10.1186/1472-6963-12-193CrossRefGoogle ScholarPubMed
Henley, E 2018 A bird’s eye view of breakdown in parrot-caregiver relations. Companion Animal 23(2): https://doi.org/10.12968/coan.2018.23.2.104CrossRefGoogle Scholar
Hess, L 2020 Companion parrot nutrition – Nutrition requirements, common feeding practices, and nutrition-related diseases. ExoticsCon Virtual 2020 Proceedings. Shawnee, USA.Google Scholar
Hoppes, S and Gray, P 2010 Parrot rescue organizations and sanctuaries: A growing presence in 2010. Journal of Exotic Pet Medicine 19(2): 133139. https://doi.org/10.1053/j.jepm.2010.05.003CrossRefGoogle Scholar
Iqbal, S and Pipon-Young, P 2009 The Delphi Method. The Psychologist. The British Psychological Society BPS Updates 22(7). https://www.bps.org.uk/volume-22/edition-7/delphi-method (accessed 15 October 2024).Google Scholar
Jayson, S, Williams, D and Wood, J 2014 Prevalence and risk factors of feather plucking in African Grey parrots (Psittacus erithacus erithacus and Psittacus erithacus timneh) and Cockatoos (Cacatua spp). Journal of Exotic Pet Medicine 23(3): 250257. https://doi.org/10.1053/j.jepm.2014.06.012CrossRefGoogle Scholar
Jones, MP and Orosz, SE 2000 The diagnosis of Aspergillosis in birds. Seminars in Avian and Exotic Pet Medicine 9(2): 5258. https://doi.org/10.1053/AX.2000.4619CrossRefGoogle Scholar
Kalmer, I, Janssens, G and Moons, C 2010 Guidelines and ethical considerations for housing and management of psittacine birds used in research. ILAR Journal 51(4): 409423. https://doi.org/10.1093/ilar.51.4.409CrossRefGoogle Scholar
Kalmer, I 2011 Features of psittacine birds in captivity: Focus on diet selection and digestive characteristics. PhD Thesis, Ghent University, Belgium.Google Scholar
Kaplan, G 2021 Casting the net widely for change in animal welfare: The plight of birds in zoos, ex situ conservation, and conservation fieldwork. Animals 12(1): 136. https://doi.org/10.3390/ani12010031CrossRefGoogle ScholarPubMed
Keeling, L, Winckler, C, Hintze, S and Forkman, B 2021 Towards a positive welfare protocol for cattle: A critical review of indicators and suggestion of how we might proceed. Frontiers in Animal Science 2: 119. https://doi.org/10.3389/fanim.2021.753080CrossRefGoogle Scholar
Khodyakov, D, Gran, S, Denger, B, Kinnett, K, Martin, A, Peay, H and Coulter, I 2020 Practical considerations in using online modified-delphi approaches to engage patients and other stakeholders in clinical practice guideline development. Practical Application 13: 1121. https://doi.org/10.1007/s40271-019-00389-4Google ScholarPubMed
Koutsos, E, Matson, K and Klasing, K 2001 Nutrition of birds in the order Psittaciformes: A review. Journal of Avian Medicine and Surgery 15(4): 257275. https://doi.org/10.1647/1082-6742(2001)015[0257:NOBITO]2.0.CO;2CrossRefGoogle Scholar
Kubiak, M 2015 Feather plucking in parrots. In Practice 37(2): 8795. https://doi.org/10.1136/inp.h234CrossRefGoogle Scholar
Larcombe, SD, Tregaskes, CA, Coffey, J, Stevenson, AE, Alexander, LG and Arnold, KE 2015 Oxidative stress, activity behaviour and body mass in captive parrots. Conservation Physiology 3(1):110. https://doi.org/10.1093/conphys/cov045CrossRefGoogle ScholarPubMed
Lightfoot, TL and Yeager, JM 2008 Pet bird related toxicity and related environmental concerns. Veterinary Clinics North America: Exotic Animal Practice 11(2): 229259. https://doi.org/10.1016/j.cvex.2008.01.006Google ScholarPubMed
Lupu, C and Robins, S 2013 Determination of a safe and effective Ultraviolet B radiant dose in Budgerigars (Melopsittacus undulatus): A pilot study. Journal of Avian Medicine and Surgery 27(4): 269279. https://www.jstor.org/stable/24624834CrossRefGoogle ScholarPubMed
Mahdavi, I, Abdi-Hachesoo, B, Ansari-Lari, M and Haddad-Marandi, MR 2023 Prevalence and risk factors of feather damaging behavior in companion parrots: A cross-sectional study in Iran. Applied Animal Behaviour Science 266: 106028. https://doi.org/10.1016/j.applanim.2023.106028CrossRefGoogle Scholar
Marino, A 2020 Veterinary students interests in avian medicine. Journal of Avian Medicine and Surgery 34(1): 8994. https://doi.org/10.1647/1082-6742-34.1.89CrossRefGoogle Scholar
Mason, G and Latham, N 2004 Can’t stop won’t stop: is stereotypy a reliable animal welfare indicator? Animal Welfare 13: S5769.CrossRefGoogle Scholar
Mason, G, Clubb, R, Latham, N and Vickery, S 2007 Why and how should we environmental enrichment to tackle stereotypic behaviour? Applied Animal Behaviour Science 102: 163188. https://doi.org/10.1016/j.applanim.2006.05.041CrossRefGoogle Scholar
Meehan, C, Garner, J and Mench, J 2003a Isosexual pair housing improves the welfare of young Amazon parrots. Applied Animal Behaviour Science 81(1): 7388. https://doi.org/10.1016/S0168-1591(02)00238-1CrossRefGoogle Scholar
Meehan, C, Millam, J and Mench, J 2003b Foraging opportunity and increased physical complexity both prevent and reduce psychogenic feather picking by young Amazon parrots. Applied Animal Behaviour Science 80(1): 7185. https://doi.org/10.1016/S0168-1591(02)00192-2CrossRefGoogle Scholar
Meehan, C, Garner, J and Mench, J 2004 Environmental enrichment and development of cage stereotypy in Orange-Winged Amazon parrots (Amazona amazonica). Developmental Psychobiology 44(4): 209218. https://doi.org/10.1002/dev.20007CrossRefGoogle ScholarPubMed
Meehan, C and Mench, J 2006 Captive parrot welfare. In: Luescher, A (ed) Manual of Parrot Behaviour pp 301318. Blackwell Publishing: Iowa, USA.CrossRefGoogle Scholar
Mellor, E, Brilot, B and Collins, S 2017 Abnormal repetitive behaviours in captive birds: A Tinbergian review. Applied Animal Behaviour Science 198: 109120. https://doi.org/10.1016/j.applanim.2017.09.011CrossRefGoogle Scholar
Mellor, E, McDonald Kinkaid, H, Mendl, M, Cuthill, I, van Zeeland, Y and Mason, G 2021 Nature calls: Intelligence and natural foraging style predict poor welfare in captive parrots. The Royal Society Proceedings 288: 110. https://doi.org/10.1098/rspb.2021.1952Google ScholarPubMed
Mench, J, Paul-Murphy, J, Klasing, K and Cussen, V 2018 True parrots (Psittacoidea). In: Yeates, J (ed) Companion Animal Care and Welfare: The UFAW Companion Animal Handbook. John Wiley & Sons Ltd: Chichester, UK.Google Scholar
Miesle, J 2021 Pododermatitis (bumblefoot): Diagnosis, treatment and resolution. In: Revah, I (ed) Reviews in Veterinary Medicine. International Veterinary Information Service: United States.Google Scholar
Miglioli, A and da Silva Vasconcellos, A 2021 Can behavioural management improve behaviour and reproduction in captive blue-and-yellow macaws (Ara ararauna)? Applied Animal Behaviour Science 241: https://doi.org/10.1016/j.applanim.2021.105386CrossRefGoogle Scholar
Miller, L and Zawistowski, S 2013 Shelter medicine for veterinarian and staff. John Wiley & Sons Inc: Ames, Iowa, USA.Google Scholar
Nightengale, M, Stout, RW and Tully, TN 2022 Plasma Vitamin D (25-Hydroxyvitamin D) levels in Hispaniolan Amazon Parrots (Amazona ventralis) housed indoors over time. Avian Diseases 66(2):148154. https://doi.org/10.1637/aviandiseases-D-21-00117CrossRefGoogle ScholarPubMed
Okoli, C and Pawlowski, S 2004 The Delphi method as a research tool: An example, design considerations and applications. Information & Management 42(1): 1529. http://doi.org/10.1016/j.im.2003.11.002CrossRefGoogle Scholar
Padzil, F, Mariatulqabtiah, AR and Abu, J 2017 Avian Polyomavirus: A recent update. Journal Veterinary Malaysia 29(2): 9–13. https://storage.unitedwebnetwork.com/files/478/2fa2dfede926b2a859bf1ef5c33a2bc2.pdf (accessed 9 February 2023).Google Scholar
Paré, G, Cameron, A, Poba-Nzaou, P and Templier, M 2013 A systematic assessment of rigor in information systems ranking-type Delphi studies. Information & Management 50(5): 207217. https://doi.org/10.1016/j.im.2013.03.003CrossRefGoogle Scholar
Parker, G, Brotchie, H and Graham, R 2017 Vitamin D and depression. Journal of Affective Disorders 208: 5661. https://doi.org/10.1016/j.jad.2016.08.082CrossRefGoogle ScholarPubMed
Pearson, G, Waran, N, Reardon, R, Keen, J and Dwyer, C 2021 A Delphi study to determine expert consensus on the behavioural indicators of stress in horses undergoing veterinary care. Applied Animal Behaviour Science 237: https://doi.org/10.1016/j.applanim.2021.105291CrossRefGoogle Scholar
Peng, S and Broom, D 2021 The sustainability of keeping birds as pets: Should any be kept? Animals 11(2): 582. https://doi.org/10.3390/ani11020582CrossRefGoogle ScholarPubMed
Peron, F and Grosset, C 2013 The diet of adult psittacids: veterinarian and ethological approaches. Journal of Animal Physiology and Animal Nutrition 98(3): https://doi.org/10.1111/jpn.12103Google ScholarPubMed
Perpiñán, D 2015 Problems of excess nutrients in psittacine diets. Companion Animal 20(9): 532537. https://doi.org/10.12968/coan.2015.20.9.532CrossRefGoogle Scholar
Polverino, G, Manciocco, A and Alleva, E 2012 Effects of spatial and social restrictions on the presence of stereotypies in the budgerigar (Melopsittacus undulatus): a pilot study. Ethology, Ecology & Evolution 24(1): 3953. https://doi.org/10.1080/03949370.2011.582045CrossRefGoogle Scholar
Rahaus, M and Wolff, MH 2003 Psittacine beak and feather disease: a first survey of the distribution of beak and feather disease virus inside the population of captive psittacine birds in Germany. Journal of Veterinary Medicine 50(8): 368371. https://doi.org/10.1046/j.1439-0450.2003.00696.xCrossRefGoogle ScholarPubMed
Rahaus, M, Desloges, N, Probst, S, Loebbert, B, Lantermann, W and Wolff, MH 2008 Detection of beak and feather disease Virus DNA in embryonated eggs of psittacine birds. Veterinarni Medicina 53(1): 5358. https://doi.org/10.17221/1932-VETMEDCrossRefGoogle Scholar
Ravichandran, K, Anbazhagan, S, Karthik, K, Angappan, M and Dhayananth, B 2021 A comprehensive review on Avian Chlamydiosis: A neglected zoonotic disease. Tropical Animal Health and Production 53: 117. https://doi.org/10.1007/s11250-021-02859-0CrossRefGoogle ScholarPubMed
Riaz, A, Yousaf, A, Moaeen-ud-Din, M, Shah, MAA, Zainab, T, Masood, S, Akhter, N and Ali, A 2019 First detection and molecular characterization of Avian Polyomavirus in young parrots in Pakistan. Veterinary Research Communications 43: 197202. https://doi.org/10.1007/s11259-019-09759-7CrossRefGoogle Scholar
Rioja-Lang, F, Bacon, H, Connor, M and Dwyer, C 2019a Determining priority welfare issues for cats in the United Kingdom using expert consensus. Veterinary Record Open 6(1): 110. https://doi.org/10.1136/vetreco-2019-000365CrossRefGoogle ScholarPubMed
Rioja-Lang, F, Bacon, H, Connor, M and Dwyer, C 2019b Rabbit welfare: determining priority welfare issues for pet rabbits using a modified Delphi method. Veterinary Record Open 6: 19. https://doi.org/10.1136/vetreco-2019-000363CrossRefGoogle ScholarPubMed
Rioja-Lang, F, Bacon, H, Connor, M and Dwyer, C 2020 Prioritisation of animal welfare issues in the UK using expert consensus. Veterinary Record Open 187(12): 490. https://doi.org/10.1136/vr.105964CrossRefGoogle ScholarPubMed
Rodríguez-López, R 2016 Environmental enrichment for parrot species: Are we squawking up the wrong tree? Applied Animal Behaviour Science 180: 110. https://doi.org/10.1016/j.applanim.2016.04.016CrossRefGoogle Scholar
Ross, M, Gillespie, K, Hopper, L, Bloomsmith, M and Maple, T 2013 Differential preference for ultraviolet light among captive birds from three ecological habitats. Applied Animal Behaviour Science 147(3–4): 278285. https://doi.org/10.1016/j.applanim.2013.05.006CrossRefGoogle Scholar
Rowe, G and Wright, G 2001 Expert opinions in forecasting: The role of the Delphi technique. In: Armstrong, J (ed) Principles of Forecasting. International Series in Operations Research & Management Science pp 30: Springer: Boston, MA, USA. https://doi.org/10.1007/978-0-306-47630-3_7Google Scholar
R Studio Team 2023 R Studio: Integrated Development Environment for R (Version 4.3.1). R Studio, Inc: Boston, MA, USA.Google Scholar
Rubinstein, J and Lightfoot, T 2012 Feather loss and feather destructive behaviour in pet birds. Journal of Exotic Pet Medicine 21(3): 219234. https://doi.org/10.1053/j.jepm.2012.06.024CrossRefGoogle Scholar
Rudloff, L 2017 Failure to launch: The lack of implementation and enforcement of the Animal Welfare Act. Syracuse Law Review 67: 173190. https://heinonline.org/HOL/LandingPage?handle=hein.journals/syrlr67&div=10&id=&page= (accessed 5 December 2023).Google Scholar
Sachse, K, Laroucau, K and Vanrompay, D 2015 Avian Chlamydiosis. Topical Collection on Bacteriology 2: 1021. https://doi.org/10.1007/s40588-014-0010-yGoogle Scholar
Samour, J 2015 Avian Medicine. Elsevier: St Louis, Missouri, USA.Google Scholar
Scagnelli, A and Tully, T 2017 Reproductive disorders in parrots. Veterinary Clinics: Exotic Animal Practice 20(2): 485507. https://doi.org/10.1016/j.cvex.2016.11.012Google ScholarPubMed
Schmid, R, Doherr, M and Steiger, A 2006 The influence of the breeding method on the behaviour of adult African grey parrots (Psittacus erithacus). Applied Animal Behaviour Science 98(3–4): 293307. https://doi.org/10.1016/j.applanim.2005.09.002CrossRefGoogle Scholar
Schwartz, D and Beaufrère, H 2022 Haematology of psittacines. In: Schwartz, D and Beaufrère, H (eds) Schalm’s Veterinary Haematology, Seventh Edition. John Wiley & Sons: Oxford, UK.Google Scholar
Slade, S, Dionne, C, Underwood, M and Buchbinder, R 2014 Standardised method for reporting exercise programmes: Protocol for a modified Delphi study. BMJ Open 4(12): https://doi.org/10.1136/bmjopen-2014-006682CrossRefGoogle ScholarPubMed
Smith, GE, Greene, D, Hartsfield, LA and Pepperberg, IM 2021 Initial evidence for eliciting contrafreeloading in Grey Parrots (Psittacus erithacus) via the opportunity for playful foraging. Journal of Comparative Psychology 135(4): 516533. https://doi.org/10.1037/com0000295CrossRefGoogle ScholarPubMed
Speer, B 2015 Current therapy. In: Speer, BL (ed) Avian Medicine and Surgery. Elsevier Ltd: Amsterdam, The Netherlands.Google Scholar
Stanford, M 2006 Effects of UVB radiation on calcium metabolism in psittacine birds. Veterinary Record 159(8): 236241. https://doi.org/10.1136/vr.159.8.236CrossRefGoogle ScholarPubMed
Stevens, A, Doneley, R, Cogny A and Phillps CJC 2021 The effects of environmental enrichment on the behaviour of cockatiels (Nymphicus hollandicus). Applied Animal Behaviour Science 235: 17. https://doi.org/10.1016/j.applanim.2020.105154Google Scholar
Szweda, M, Kolodziejska, A, Szarek, J and Babinski, I 2011 Avian Polyomavirus infections in Amazon parrots. Medycyna Weterynaryjna 67(3): 147150. https://www.researchgate.net/profile/Jozef-Szarek/publication/234932358_Avian_Polyomavirus_infections_in_Amazon_parrots/links/09e415102ef1f96574000000/Avian-Polyomavirus-infections-in-Amazon-parrots.pdf (accessed 9 February 2023).Google Scholar
Tarr, B, Rabinowitz, J, Imtiaz, M and DeVoogd, T 2009 Captivity reduces hippocampal volume but not survival of new cells in a food-storing bird. Developmental Neurobiology 69(14): 972981. https://doi.org/10.1002/dneu.20736CrossRefGoogle ScholarPubMed
The Parrot Society 2023 The Parrot Society UK List Of Avian Vets. https://theparrotsocietyuk.org/site/index.php/parrot-information/veterinary-advice/avian-vets-2/ (accessed 3 January 2024).Google Scholar
Tizard, I, Shivaprasad, HL, Guo, J, Hameed, S, Ball, J and Payne, S 2017 The pathogenesis of proventricular dilation disease. Animal Health Research Reviews 17(2):110126. https://doi.org/10.1017/S1466252316000189CrossRefGoogle Scholar
Tygesen, A and Forkman, B 2023 The parrot–owner relationship and problem behaviours in parrots. Anthrozoös 36(6): 985997. https://doi.org/10.1080/08927936.2023.2238434CrossRefGoogle Scholar
Ullrey, D, Allen, M and Baer, D 1991 Formulated diets versus seed mixtures for psittacines. The Journal of Nutrition 121(11): 193205. https://doi.org/10.1093/jn/121.suppl_11.S193CrossRefGoogle ScholarPubMed
Van Sant, F 2006 Problem sexual behaviours of companion parrots. In: Luescher, A (ed) Manual of Parrot Behaviour pp 233245. Blackwell Publishing: Iowa, USA.CrossRefGoogle Scholar
Van Zeeland, YRA and Schoemaker, NJ 2014 Plumage disorders in psittacine birds - Part 1: Feather abnormalities. European Journal of Companion Animal Practice 24(1): 3447.Google Scholar
Van Zeeland, Y, Spruit, B, Rodenburg, T, Riedstra, B, van Hierden, Y, Buitenhuis, B, Korte, S and Lumeij, J 2009 Feather damaging behaviour in parrots: A review with consideration of comparative aspects. Applied Animal Behaviour Science 121(2): 7595. https://doi.org/10.1016/j.applanim.2009.09.006CrossRefGoogle Scholar
Van Zeeland, Y, Schoemaker, N, Ravesteijn, M, Mol, M and Lumeij, J 2013 Efficacy of foraging enrichments to increase foraging time in grey parrots (Psittacus erithacus erithacus) Applied Animal Behaviour Science 149(1–4): 87102. https://doi.org/10.1016/j.applanim.2013.09.005CrossRefGoogle Scholar
Van Zeeland, Y, Schoemaker, N and Lumeij, J 2023 Contrafreeloading indicating the behavioural need to forage in healthy and feather damaging grey parrots. Animals 13(16): 2635. https://doi.org/10.3390/ani13162635CrossRefGoogle ScholarPubMed
Vickery, S and Hollwarth, A 2021 Health and husbandry of companion parrots. The Veterinary Nurse 12(10): 463471. https://doi.org/10.12968/vetn.2021.12.10.463CrossRefGoogle Scholar
Vogel, C, Zwolinsky, S, Griffiths, C, Hobbs, M, Henderson, E and Wilkins, E 2019 A Delphi study to build consensus on the definition and use of big data in obesity research. International Journal of Obesity 43: 25732586. https://doi.org/10.1038/s41366-018-0313-9CrossRefGoogle ScholarPubMed
Whittaker, A, Golder-Dewar, B, Triggs, J, Sherwen, S and McLelland, D 2021 Identification of animal-based welfare indicators in captive reptiles: A Delphi consultation survey. Animals 11(7): https://doi.org/10.3390/ani11072010CrossRefGoogle ScholarPubMed
Wilson, L and Luescher, A 2006 Parrots and fear. In: Luescher, A (ed). Manual of Parrot Behaviour pp 225231. Blackwell Publishing: Iowa, USACrossRefGoogle Scholar
Williams, S, Clausen, M, Robertson, A, Peacock, S and McPherson, K 2012 Methodological reflections on the use of asynchronous online focus groups in health research. International Journal of Qualitative Methods 11(4): 368383. https://doi.org/10.1177/160940691201100405CrossRefGoogle Scholar
Williams, I, Hoppitt, W and Grant, R 2017 The effect of auditory enrichment, rearing method and social environment on the behaviour of zoo-housed psittacines (Aves: Psittaciformes); Implications for welfare. Applied Animal Behaviour Science 186: 8592. https://doi.org/10.1016/j.applanim.2016.10.013CrossRefGoogle Scholar
Wills, A and Holt, S 2020 Confidence of veterinary surgeons in the United Kingdom in treating and diagnosing exotic pet species. Veterinary Record 186(18): 18. https://doi.org/10.1136/vr.105664CrossRefGoogle ScholarPubMed
Woodman, C, Biro, C and Brightsmith, D 2021 Parrot free-flight as a conservation tool. Diversity 13(6): 254278. https://doi.org/10.3390/d13060254CrossRefGoogle Scholar
Wright, T, Schirtzinger, E, Matsumoto, T, Eberhard, J, Graves, G, Sanchez, J, Capelli, S, Muller, H, Scharpegge, J, Chambers, G and Fleischer, R 2008 A multilocus molecular phylogeny of the parrots (Psittaciformes): Support for a Gondwanan origin during the Cretaceous. Molecular Biology and Evolution 25(10): 21412156 https://doi.org/10.1093/molbev/msn160CrossRefGoogle ScholarPubMed
Young, A, Hobson, E, Bingaman Lackey, L and Wright, T 2011 Survival on the ark: Life history trends in captive parrots. Animal Conservation 15(1): 2845. https://doi.org/10.1111/j.1469-1795.2011.00477.xCrossRefGoogle Scholar
Zwart, P and Samour, J 2021 The avian respiratory system and its noninfectious disorders: A review. Journal of Exotic Pet Medicine 37: 3950. https://doi.org/10.1053/j.jepm.2021.02.004CrossRefGoogle Scholar
Figure 0

Table 1. The initial unranked list of parrot welfare issues identified through an informal literature review and presented to participants (n = 26) in the first online survey round

Figure 1

Table 2. New captive parrot welfare issues added by participants in issue prioritisation survey 1 (n = 26) and included in survey 1B (n = 12)

Figure 2

Table 3. Mean (± SD) scores and rank order for parrot welfare issues scoring at least 4.0 or above for severity, duration and prevalence after survey rounds 1 (n = 26) and 1B (n = 12)

Figure 3

Table 4. Themes, description, and exemplar quotations from participants commenting on parrot welfare issues in priority issue ranking surveys 1 (n = 26) and 1B (n = 12)

Figure 4

Table 5. Final captive parrot welfare issue rankings (in terms of severity, duration, prevalence, and overall) after an iterative modified Delphi expert consultation study (n = 26 experts at study start, 7 experts by study conclusion)

Supplementary material: File

Chalmers et al. supplementary material

Chalmers et al. supplementary material
Download Chalmers et al. supplementary material(File)
File 279.8 KB