Introduction
Parrots (Psittaciformes) are among the most imperilled bird orders, with 28% of species currently Threatened and 24% Near Threatened (BirdLife International 2020 a), with large species being three times more likely at risk than small ones (Collar Reference Collar1998). Most parrot species are threatened by a combination of habitat loss or degradation and excessive trade (Snyder et al. Reference Snyder, McGowan, Gilardi and Grajal2000, BirdLife International 2020 a). Grey Parrot Psittacus erithacus has a huge range in West and Central Africa, but populations have been subjected to intense anthropogenic pressures (BirdLife International 2020 b). Over the last 30 years the species’ habitat has been disappearing at increasing speed (Achard et al. Reference Achard, Eva, Stibig, Mayaux, Gallego, Richards and Malingreau2002, Duveiller et al. Reference Duveiller, Defourny, Desclée and Mayaux2008), and tens of thousands of individuals have been harvested from the wild to satisfy a multi-million dollar international pet trade (Martin Reference Martin2017, UNEP-CITES 2017). The species’ global conservation status rapidly deteriorated from Near Threatened through Vulnerable to Endangered in just five years (BirdLife International 2020 b), resulting in a near-unanimous acceptance of calls for a ban on its international trade in 2016 (CITES 2017).
Population trends in the Grey Parrot have not been geographically uniform: its status ranges from reasonably common in parts of Cameroon (Fotso Reference Fotso1998, Marsden et al. Reference Marsden, Loqueh, Takuo, Hart, Abani, Ahon, Annorbah, Johnson and Valle2016) to declining in DRC (Hart et al. Reference Hart, Hart, Salumu, Bernard, Abani and Martin2016) and Côte d’Ivoire (Marsden et al. Reference Marsden, Loqueh, Takuo, Hart, Abani, Ahon, Annorbah, Johnson and Valle2016), to almost extinct in Ghana (Annorbah et al. Reference Annorbah, Collar and Marsden2016) and Nigeria (Martin et al. Reference Martin, Perrin, Boyes, Abebe, Annorbah, Asamoah, Bizimana, Bobo, Bunbury, Brouwer, Diop, Ewnetu, Fotso, Garteh, Hall, Holbech, Madindou, Maisels, Mokoko, Mulwa, Reuleaux, Symes, Tamungang, Taylor, Valle, Waltert and Wondafrash2014, Olmos & Turshak Reference Olmos and Turshak2009). However, despite a long history of commercial trade in Grey Parrots, the island of Príncipe (Democratic Republic of São Tomé and Príncipe) still hosts an abundant population (Valle et al. Reference Valle, Collar, Harris and Marsden2018), with a remarkably high overall mean density of 53 ± 6 parrots km−2 across the island (Valle et al. Reference Valle, Collar, Harris and Marsden2017). Although the Grey Parrots on Príncipe present some genetic complexity, with one lineage involving Psittacus erithacus and one involving Timneh Parrot P. timneh (Melo & O’Ryan Reference Melo and O’Ryan2007), there is no evidence that their ecology is significantly different from populations of either species on the African mainland.
In this paper we seek to explore the various factors that might individually or in combination explain why the Grey Parrot population on Príncipe maintains such notable densities while other populations are dwindling.
Methods
Study area
Príncipe (139 km2) lies close to the equator, 220 km off the coast of West Africa, in the Gulf of Guinea (Supplementary online material figure S1). It was uninhabited until 1471, after which all sufficiently accessible areas were gradually cleared and planted with sugarcane Saccharum sp., oil palm Elaeis guineensis, cocoa Theobroma cacao, coffee Coffea sp. and coconut Cocos nucifera. Many of these areas have now reverted to secondary forest, while, from our own calculations using GIS, ~25% of the island (mostly in the southern half) retains almost untouched lowland rainforest (Figueiredo et al. Reference Figueiredo, Paiva, Stévart, Oliveira and Smith2011, Jones & Tye Reference Jones and Tye2006). Príncipe has a depauperate land fauna, with only 31 breeding bird species (Jones & Tye Reference Jones and Tye2006), 11 reptiles and three amphibians (Ceríaco et al. Reference Ceríaco, Marques and Bauer2018), and five native mammal species (four bats and one shrew), albeit with high levels of endemism (Jones Reference Jones1994).
Review
We reviewed all available evidence concerning those factors which are known to be key to the viability of parrot populations. These include natural ecological aspects as well as indirect and direct anthropogenic pressure. Availability of suitable nesting cavities is a key factor for most parrot species as it imposes a direct limitation on their yearly breeding output (Beissinger Reference Beissinger, Reynolds, Mace, Redford and Robinson2001, Beissinger & Bucher Reference Beissinger, Bucher, Beissinger and Snyder1992, Munn Reference Munn, Beissinger and Snyder1992). Natural nest predation is another important aspect as it can be accountable for more than 50% of nest failures in some populations (Berkunsky et al. Reference Berkunsky, Segura, Aramburú, Ruggera, Svagelj and Reboreda2016, Renton & Salinas-Melgoza Reference Renton and Salinas-Melgoza2004). Changes in food resource availability and accessibility have also been linked to the decline of wild parrots (Berg et al. Reference Berg, Socola and Angel2007, Saunders Reference Saunders1990, Wunderle Reference Wunderle1999). Furthermore, as most Psittacidae rely on tropical and subtropical forests, habitat loss has been highlighted as one of the main threats at both local and global levels, particularly when associated with agricultural expansion (Koenig Reference Koenig2008, Vergara-Tabares et al. Reference Vergara-Tabares, Cordier, Landi, Olah and Nori2020). Finally, harvest for the local and international pet trade is thought to be responsible for the decline of many parrot species due to their peculiar life history traits, i.e. small clutch size, long period of parental care, slow sexual maturation and long lifespan (González Reference González2003, Martin et al. Reference Martin, Perrin, Boyes, Abebe, Annorbah, Asamoah, Bizimana, Bobo, Bunbury, Brouwer, Diop, Ewnetu, Fotso, Garteh, Hall, Holbech, Madindou, Maisels, Mokoko, Mulwa, Reuleaux, Symes, Tamungang, Taylor, Valle, Waltert and Wondafrash2014, Reference Martin, Senni and D’Cruze2018, Valle et al. Reference Valle, Collar, Harris and Marsden2018). We then examined how the same conditions may differ in mainland Africa and how this may influence the health of populations of this and other large parrot species.
Results
Nesting requirements, densities and productivity
Grey Parrots are obligate secondary tree-cavity nesters (Benson et al. Reference Benson, Benson, Stuart, Fry, Fry, Keith and Urban1988), which makes them particularly sensitive to the loss of suitable cavities to tree-felling or competition (Valle et al. Reference Valle, Collar, Harris and Marsden2017). On Príncipe, 66 of 83 (79%) nest cavities examined were found in four relatively common and widespread tree species (Valle Reference Valle2015; Supplementary online material table S1). Pairs nested in large trees (mean nest-tree height ± SD = 45.3 ± 14.0 m; DBH = 1.22 ± 0.49 m), and all but four nests were in living healthy trees (Valle Reference Valle2015). This is consistent with the species’ behaviour elsewhere (Amuno et al. Reference Amuno, Massa and Okethowengo2010, Dändliker Reference Dändliker1992) and indeed with larger parrot species across the tropics (Marsden & Jones Reference Marsden and Jones1997, Monterrubio-Rico et al. Reference Monterrubio-Rico, Cruz-Nieto, Enkerlin-Hoeflich, Venagas-Holguin, Tellez-Garcia and Marin-Togo2006).
Although the loss of habitat in general is a major threat to Grey Parrot populations (BirdLife International 2020 b), the loss of individual large trees providing nesting substrate can be equally detrimental to their viability (Valle et al. Reference Valle, Collar, Harris and Marsden2017). In some cases, preferred nest trees may be of significant commercial value, e.g. Terminalia superba for timber in Ghana (Dändliker Reference Dändliker1992) and Pentaclethra macrophylla for charcoal in Príncipe (Valle Reference Valle2015). Indeed, in Ghana, the felling of individual large trees within the landscape is thought to have greatly compounded the effects of trade in the species (Annorbah et al. Reference Annorbah, Collar and Marsden2016).
Nest densities at traditional trapping sites on Príncipe averaged 72 ± 26 (SD) nests km−2 in primary forest and 17 ± 8 nests km−2 in secondary forest (Valle Reference Valle2015). While nest densities across the island as a whole may be lower than those at selected trapping sites, they are nonetheless the highest ever recorded for any native, non-colonial, tree-nesting parrot species (Table 1). The only other estimate of nest density for Grey Parrots is 1.3 ± 0.13 (SD) nests km−2 in Nigeria (as in this study, minimum density was calculated from local trappers’ knowledge; McGowan Reference McGowan2001).
On Príncipe, nests were reported by trappers to have produced 1–3 chicks (mean ± SD = 1.9 ± 0.7, n = 81; Valle Reference Valle2015). Such productivity is high but within the normal range of the species (1–4; Benson et al. Reference Benson, Benson, Stuart, Fry, Fry, Keith and Urban1988, Forshaw Reference Forshaw1989).
Nest competitors and nest predators
On Príncipe, Grey Parrot is the largest hole-nesting vertebrate (Jones & Tye Reference Jones and Tye2006), freeing it from interspecific competition for cavities, a limiting factor for many bird species (Martin & Eadie Reference Martin and Eadie1999, Strubbe & Matthysen Reference Strubbe and Matthysen2009). The absence of hornbills (Bucerotidae) may be particularly important, since these are the most likely nest-site competitors across the Grey Parrot’s range, and because they can occur at relatively high densities, e.g. Black-casqued Hornbills Ceratogymna atrata at 8.7 ± 0.6 km−2 and Brown-cheeked Hornbills Bycanistes cylindricus at 7.2 ± 1 km−2 in Cameroon (Whitney & Smith Reference Whitney and Smith1998). Indeed, the only documented instance of nest competition on a Grey Parrot involved a Grey-cheeked Hornbill B. subcylindricus killing a brood in order to appropriate the cavity (Kalina Reference Kalina1988). Also absent from Príncipe is a suite of tree-dwelling mammals (e.g. Galagidae, Viverridae, Mustelidae), which may likewise compete for nest holes in mainland West and Central Africa.
Other than the introduced mona monkey Cercopithecus mona and black rat Rattus rattus, which may despoil unguarded nests (Jones & Tye Reference Jones and Tye2006), there are no confirmed nest predators on Príncipe (Dutton Reference Dutton1994). Nest predation can seriously affect productivity and density in parrots (Britt et al. Reference Britt, García Anleu and Desmond2014), and in mainland Africa the same mustelids and viverrids that compete for cavities may also be predators on hole-nesting animals, as are various arboreal primates and snakes, e.g. Patas monkey Erythrocebus patas (Hall Reference Hall1965) and royal python Python regius (Luiselli & Angelici Reference Luiselli and Angelici1998).
Food resources
Grey Parrots feed on fruits and seeds from a variety of common species, with a marked preference for oil palm fruits (Benson et al. Reference Benson, Benson, Stuart, Fry, Fry, Keith and Urban1988, Brosset & Erard Reference Brosset and Erard1986), and 17 known ‘food tree species’ (Chapman et al. Reference Chapman, Chapman and Wrangham1993, Dändliker Reference Dändliker1992, Juste Reference Juste1996, Tamungang & Ajayi Reference Tamungang and Ajayi2003). This diet allows the species to occupy a range of disturbed habitats, including secondary forest (Dändliker Reference Dändliker1992), shade plantations (Valle et al. Reference Valle, Collar, Harris and Marsden2017) and even urban environments (Irumba et al. Reference Irumba, Pomeroy and Perrin2016, Martin et al. Reference Martin, Perrin, Boyes, Abebe, Annorbah, Asamoah, Bizimana, Bobo, Bunbury, Brouwer, Diop, Ewnetu, Fotso, Garteh, Hall, Holbech, Madindou, Maisels, Mokoko, Mulwa, Reuleaux, Symes, Tamungang, Taylor, Valle, Waltert and Wondafrash2014). Príncipe’s landscapes are rich in Grey Parrot food, with a mean 4 ± 2 (SD) of the 17 known food tree species per sampling plot (n = 103), 99% containing at least one such species and 89% containing oil palms (Valle et al. Reference Valle, Collar, Harris and Marsden2017). As with other parrot species (Marsden & Pilgrim Reference Marsden and Pilgrim2003), such adaptability contributes to the species’ resilience to some anthropogenic land-use changes. Thus, habitat loss is more likely to affect populations of Grey Parrot, and other large psittacids, in terms of lower nest-site availability than lower food availability (Beissinger & Bucher Reference Beissinger, Bucher, Beissinger and Snyder1992, Munn Reference Munn, Beissinger and Snyder1992, Newton Reference Newton1994).
Trade volume, patterns and limitations
With over 1.6 million individuals legally exported from range states between 1975 and 2014, Grey Parrot was then the most traded wild bird species in the world (Martin Reference Martin2017, UNEP-CITES 2017). Despite this, the supply of birds remained strong until growing concerns over the state of wild populations led to a ban on its trade in 2016 (CITES 2017). Príncipe has a history of heavy trade in Grey Parrots, with a reported average of 600 chicks – approximating to four individuals per km2 of its land area – exported annually in the 1990s (Juste Reference Juste1996). Nonetheless, the island appears always to have hosted reasonably high densities (Jones & Tye Reference Jones and Tye2006, Melo & O’Ryan Reference Melo and O’Ryan2007), which have been slowly growing since the regional ban on all trade was put in place in 2005 (Valle Reference Valle2015, Valle et al. Reference Valle, Collar, Harris and Marsden2018). We suggest two reasons behind this resilience to trapping pressure.
First, different capture methods have markedly different impacts on Grey Parrot populations, with the harvest of adult birds being far more detrimental than that of nestlings only (Valle et al. Reference Valle, Collar, Harris and Marsden2018). Trapping on Príncipe has predominantly targeted chicks from nests in traditional harvest locations, with only occasional trapping at feeding sites (Melo Reference Melo1998). By contrast, trapping in mainland Africa commonly involves the indiscriminate mass capture of individuals from aggregation sites (e.g. in Cameroon; Ngenyi Reference Ngenyi2002, Reference Ngenyi2003) or the capture of nest-attending adults along with destruction of the nest and/or felling of the nest tree (e.g. in Ghana; Dändliker Reference Dändliker1992).
Second, at least 45% of Príncipe is covered by practically inaccessible primary and secondary lowland forest (Jones & Tye Reference Jones and Tye2006). This has provided parrots with an abundance of large trees suitable for nesting, a high proportion of which remain beyond the reach of poachers and other forms of disturbance due to their remoteness and the ruggedness of the terrain. This is consistent with what has been found in the congeneric Timneh Parrot, where site remoteness is linked to healthier local populations (Lopes et al. Reference Lopes, Catry, Henriques, Martin, Monteiro, Cardoso, Tchantchalam, Pires and Regalla2019). Given these conditions, together with the absence of nest competitors and predators discussed above, it is likely that, on Príncipe, many pairs of Grey Parrots, which are annual breeders (Benson et al. Reference Benson, Benson, Stuart, Fry, Fry, Keith and Urban1988), fledge offspring successfully every year. Moreover, the peculiar configuration of the island’s landscape might be particularly favourable for Grey Parrots, as it offers areas with significant feeding opportunities (extensive plantations and secondary forest, both rich in food tree species) as well as much rugged forest suitable for breeding, allowing for daily and seasonal movements between the two (Valle Reference Valle2015, Valle et al. Reference Valle, Collar, Harris and Marsden2017).
Discussion
While mainland African populations of Grey Parrot, and indeed most other large parrots worldwide, have been steadily declining (BirdLife International 2020 a), over the years Príncipe’s population has remained relatively large and seemingly growing (Valle et al. Reference Valle, Collar, Harris and Marsden2018). Príncipe’s high population densities of parrots may be partly attributed to an island ‘density compensation’ effect (MacArthur et al. Reference MacArthur, Diamond and Karr1972, Wright Reference Wright1980). Mainland populations also have to contend with a number of potential predators (including human) and competitors which are absent from the island (Kalina Reference Kalina1988). Nevertheless, some important lessons can be drawn from this case study to inform the conservation of the species elsewhere in its range. Of the four constraints potentially operating on Grey Parrot populations across Africa and which may contribute to the success of the species on Príncipe, we discount one, food resources, as improbable, but we regard the other three as significant. Although the availability of food is an unlikely constraint for Grey Parrots on Príncipe, and possibly in other lush habitats on the mainland, it should not be underestimated as it has been shown to influence local abundance (Marsden & Pilgrim Reference Marsden and Pilgrim2003) and limit population viability in other large parrot species (Saunders Reference Saunders1990, Berg et al. Reference Berg, Socola and Angel2007).
Consequently, we recommend the following management interventions for mainland populations of Grey Parrots and other large psittacines, particularly those with very specific nesting requirements such as Thick-billed Parrot Rhynchopsitta pachyrhyncha (Monterrubio et al. Reference Monterrubio, Enkerlin-Hoeflich and Hamilton2002) and Yellow-eared Parrot Ognorhynchus icterotis (Krabbe Reference Krabbe2000).
-
1. Efforts are needed to ensure that a proportion of Grey Parrot nests are successful each year, thereby promoting recruitment into the wild population. Protection of nests, mainly from poachers but also, in some situations, from competitors or predators (e.g. by installation of predator guard devices), is crucial.
-
2. The preservation of individual large trees, especially those known to hold nest holes, is vital, which may require adjustments to forestry policy and negotiations with logging stakeholders.
-
3. As authorities enforce the international ban on trade, they should prioritize interventions against the indiscriminate trapping of adult birds away from nests. For example, since the eyes of adult Grey Parrots are pale while those of juveniles are dark (Dändliker Reference Dändliker1992), the trapping method employed could be deduced by recording eye colour of birds in confiscated shipments, i.e. those with >20% of birds with pale eyes are likely to derive from indiscriminate trapping (Valle et al. Reference Valle, Collar, Harris and Marsden2018).
Conservation action for any species is best informed by extensive research into that species in the particular area of concern. However, the logistic and economic constraints of collecting ecological data in the tropics on large parrots indicate the need for a critical synthesis of available evidence, even from just one species, in order to provide information with a high probability of relevance to other species. Such extrapolation should nevertheless be weighed against the possibility of collecting better evidence, and allow for the assessment of the effects of any conservation intervention put in place based on surrogate species.
Acknowledgements
Parrots International generously funded our research in 2012–14. Eng. Arlindo Carvalho (former National General Director of the Environment), Eng. Nestor Umbelina (Regional Secretary to the Infrastructures and the Environment) and Daniel Ramos (former Director of the Parque Natural d’ⓞbo do Príncipe) endorsed and facilitated the project. Here Be Dragons investment group kindly provided logistical support during fieldwork. Sátiro and Lynsey Crellin gave crucial assistance with data collection. The virtual library shared by the IOU Working Group on Psittaciformes was an invaluable source of both peer-reviewed and grey literature. The data that support the findings of this study are available from the corresponding author upon reasonable request. Four referees kindly provided sound advice for the improvement of the manuscript.
Supplementary material
To view supplementary material for this article, please visit https://doi.org/10.1017/S0266467421000031