Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Reith, S.
Brandt, H.
and
Hoy, S.
2014.
Simultaneous analysis of activity and rumination time, based on collar-mounted sensor technology, of dairy cows over the peri-estrus period.
Livestock Science,
Vol. 170,
Issue. ,
p.
219.
Pahl, C.
Hartung, E.
Mahlkow-Nerge, K.
and
Haeussermann, A.
2015.
Feeding characteristics and rumination time of dairy cows around estrus.
Journal of Dairy Science,
Vol. 98,
Issue. 1,
p.
148.
Appuhamy, J.A.D.R.N.
Judy, J.V.
Kebreab, E.
and
Kononoff, P.J.
2016.
Prediction of drinking water intake by dairy cows.
Journal of Dairy Science,
Vol. 99,
Issue. 9,
p.
7191.
Keeper, DM
Kerrisk, KL
House, JK
Garcia, SC
and
Thomson, P
2017.
Demographics, farm and reproductive management strategies used in Australian automatic milking systems compared with regionally proximal conventional milking systems.
Australian Veterinary Journal,
Vol. 95,
Issue. 9,
p.
325.
Brassel, J
Rohrssen, F
Failing, K
and
Wehrend, A
2018.
Automated oestrus detection using multimetric behaviour recognition in seasonal-calving dairy cattle on pasture.
New Zealand Veterinary Journal,
Vol. 66,
Issue. 5,
p.
243.
Zebari, Hawar M.
Rutter, S. Mark
and
Bleach, Emma C.L.
2018.
Characterizing changes in activity and feeding behaviour of lactating dairy cows during behavioural and silent oestrus.
Applied Animal Behaviour Science,
Vol. 206,
Issue. ,
p.
12.
Mičiaková, Mária
Strapák, Peter
Szencziová, Iveta
Strapáková, Eva
and
Hanušovský, Ondrej
2018.
Several Methods of Estrus Detection in Cattle Dams: A Review.
Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis,
Vol. 66,
Issue. 2,
p.
619.
Reith, S.
and
Hoy, S.
2018.
Review: Behavioral signs of estrus and the potential of fully automated systems for detection of estrus in dairy cattle.
Animal,
Vol. 12,
Issue. 2,
p.
398.
Chouzouris, Thomas Markos
Dovolou, Eleni
Rekkas, Constantinos A.
Georgoulias, Panagiotis
Athanasiou, Lambrini V.
and
Amiridis, Georgios S.
2019.
A study on ghrelin and LH secretion after short fasting and on ghrelin levels at perioestrual period in dairy cattle.
Reproduction in Domestic Animals,
Vol. 54,
Issue. 1,
p.
91.
Schweinzer, V.
Gusterer, E.
Kanz, P.
Krieger, S.
Süss, D.
Lidauer, L.
Berger, A.
Kickinger, F.
Öhlschuster, M.
Auer, W.
Drillich, M.
and
Iwersen, M.
2020.
Comparison of behavioral patterns of dairy cows with natural estrus and induced ovulation detected by an ear-tag based accelerometer.
Theriogenology,
Vol. 157,
Issue. ,
p.
33.
Vasquez-Hidalgo, M.A.
Kelany, K.
Grazul-Bilska, A.T.
Bauer, M.
Swanson, K.C.
Perry, G.A.
and
Vonnahme, K.A.
2021.
Acute effects of estradiol-17β on plasma volume and uterine cell proliferation in sheep.
Theriogenology,
Vol. 176,
Issue. ,
p.
12.
Singh, Amit K.
Bhakat, Champak
Ghosh, Monoj K.
and
Dutta, Tapas K.
2021.
Technologies used at advanced dairy farms for optimizing the performance of dairy animals: A review.
Spanish Journal of Agricultural Research,
Vol. 19,
Issue. 4,
p.
e05R01.
Schilkowsky, E.M.
Granados, G.E.
Sitko, E.M.
Masello, M.
Perez, M.M.
and
Giordano, J.O.
2021.
Evaluation and characterization of estrus alerts and behavioral parameters generated by an ear-attached accelerometer-based system for automated detection of estrus.
Journal of Dairy Science,
Vol. 104,
Issue. 5,
p.
6222.
Watt, Lucinda J.
Clark, Cameron E.F.
Albornoz, Rodrigo I.
Krebs, Gaye L.
Petzel, Christopher E.
and
Utsumi, Santiago A.
2021.
Effects of grain-based concentrate feeding and rumination frequency on the milk production, methane and carbon dioxide fluxes, and activity of dairy cows in a pasture-based automatic milking system.
Livestock Science,
Vol. 245,
Issue. ,
p.
104420.
Tippenhauer, C.M.
Plenio, J.-L.
Madureira, A.M.L.
Cerri, R.L.A.
Heuwieser, W.
and
Borchardt, S.
2021.
Factors associated with estrous expression and subsequent fertility in lactating dairy cows using automated activity monitoring.
Journal of Dairy Science,
Vol. 104,
Issue. 5,
p.
6267.
Stevenson, Jeffrey S.
2021.
Daily activity measures and milk yield immediately before and after a fertile estrus and during the period of expected return to estrus after insemination in dairy cows.
Journal of Dairy Science,
Vol. 104,
Issue. 10,
p.
11277.
SARIİBRAHİMOĞLU, Oğuzhan
AKBAĞ, Hande Işıl
and
UYARLAR, Cangir
2022.
HOLŞTAYN IRKI DÜVELERDE PUBERTAS ÖNCESİNDE RASYONA RUMEN KORUMALI LİZİN VE METİYONİN İLAVESİNİN BAZI KAN METABOLİZMA PARAMETRELERİ ÜZERİNE ETKİLERİ.
Kocatepe Veterinary Journal,
Liang, Hua-Ta
Hsu, Shu-Wen
Hsu, Jih-Tay
Tu, Chia-Jui
Chang, Yi-Chu
Jian, Chua Teck
and
Lin, Ta-Te
2024.
An IMU-based machine learning approach for daily behavior pattern recognition in dairy cows.
Smart Agricultural Technology,
Vol. 9,
Issue. ,
p.
100539.
Mičiaková, Mária
Strapák, Peter
and
Strapáková, Eva
2024.
The Influence of Selected Factors on Changes in Locomotion Activity during Estrus in Dairy Cows.
Animals,
Vol. 14,
Issue. 10,
p.
1421.