Effect of photoperiod, lunar cycle and some environmental factors on gestation and parturition time in purebred and crossbred goats (F1, F2 and B1 generations)

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Published: Jan 15, 2025
DOI: https://doi.org/10.12681/jhvms.36563
Keywords:
Crossbreeding gestation period goat lunar cycle parturition time photoperiod
H Erduran
Bahri Dağdaş International Agricultural Research Institute, Konya, Türkiye
Abstract

The aim of this study was to investigate the effects of photoperiod, lunar cycle and various environmental factors on gestation period and parturition time in 624 kids born to Hair and Saanen × Hair and Alpine × Hair crossbred goats (F1, F2 and B1). The effects of maternal genotype, parity, kid genotype, sex, birth type, flock and year factors on the time of birth were found to be significant (p<0.05).  The majority of births (83.5%) occurred during daylight hours. The effect of lunar cycle and light/dark nights on the time of birth showed statistically significant differences (p<0.05). During the new moon phase, only 8% of births were recorded at their lowest, while the highest number of births (19%) was recorded during the waning gibbous moon phase (p<0.05). In addition, the birth frequency for goats was higher in the light nights than in the dark nights (p<0.01). Moon phase, parent genotype, and birth type affected gestation length of goats (p<0.01). Parturition time and lunar cycle proved to be significant factors affecting the gestation period (p<0.05). A shorter gestation period was observed in goats exposed to higher levels of moonlight. The study revealed that environmental factors significantly influence gestation period and parturition time. In addition, the lunar cycle and photoperiod also have a significant effect on these parameters. The results suggest that potential environmental effects should be carefully considered in studies investigating goat reproduction.

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References
Aguirre AA, Palomares RA, De Ondiz AD, Soto ER, Perea MS, Hernández-
Fonseca HJ, Perea FP (2021) Lunar cycle influences reproductive
performance of crossbred Brahman cows under tropical conditions. J
Biol Rhythm 36: 160-168.
Akkuş T, Korkmaz Ö, Emre B, Zonturlu AK, Dinçer PFP, Yaprakçı Ö
(2022) The effect of dystocia on oxidative stress, colostral antibody/
passive immune status, and blood gases in Damascus goats and their
kids. Turkish J Vet & Anim Sci 46(1), 18-27.
Amano T, Ripperger JA, Albrecht U (2020) Changing the light schedule
in late pregnancy alters birth timing in mice. Theriogenology 154:
-222.
Andreatta G, Tessmar-Raible K (2020) The still dark side of the moon:
molecular mechanisms of lunar-controlled rhythms and clocks. J Mol
Biol 432: 3525-3546.
Balaro MFA, de Mello SGV, da Silva Santos A, Cavalcanti LM, Almosny
NRP, Fonseca JF, Brandão FZ (2019) Reproductive seasonality in
Saanen goats kept under tropical conditions. Trop Anim Health Prod
: 345-353.
Bektaş Nİ (2020) Sirkadyen saat genlerinin ekspresyonunun fare normal
plasenta ve sirkadyen ritmi bozulan plasenta gelişiminde değerlendirilmesi.
Akdeniz University, Institutes of Health Sciences (PhD thesis).
Cal‐Kayitmazbatir S, Kulkoyluoglu‐Cotul E, Growe J, Selby CP, Rhoades
SD, Malik D, Oner H, Asimgil H, Francey LJ, Sancar A (2021)
CRY1‐CBS binding regulates circadian clock function and metabolism.
The FEBS J 288: 614-639.
Çobanoğlu A, Şendir M (2020) Does natural birth have a circadian
rhythm? J Obst Gynaecol 40: 182-187.
Edwards SA (1979) The timing of parturition in dairy cattle. The J Agr
Sci 93: 359-363.
Erduran H (2021) Crossbreeding of Hair goats with Alpine and Saanen
bucks: Production and reproduction traits of Native Hair goats in
supplementary feeding in different physiological stage in natural pasture-
based system. Small Rum Res 203: 106494.
Erduran H (2022) Effect of parturition time and climatic conditions on
milk productivity, milk quality and udder morphometry in Saanen
goats in a semi-intensive system. J Dairy Res 89: 397-403.
Erduran H (2023a) Effect of parturition time and photoperiod on milk production, quality, and somatic cell count traits of pure and crossbred
goats in a different production system. Trop Anim Health Prod
: 145.
Erduran H (2023b) Adaptation of reproductive and growth traits of primiparous
Kilis goats to high-altitude mountain areas. ÇOMÜ Zir Fak
Derg 11 (2): 268-275.
Erduran H, Dag B (2022) Comparison of phenotypic and heterotic effects
affecting milk yield, composition and udder morphometry of Hair and
F1, F2 and G1 generation cross-breeds of Alpine × Hair and Saanen ×
Hair dairy goats in a semi-intensive system. Trop Anim Health Prod
: 59.
Erduran H, Yaman B (2014) Effect of some environmental factors on the
distribution of daily kidding of Saanen goats in farms conditions. J
Bahri Dagdas Anim Res 1 (1-2): 8-12.
Hopper LM, Fernandez‐Duque E, Williams LE (2019) Testing the weekend
effect hypothesis: Time of day and lunar phase better predict the
timing of births in laboratory‐housed primates than day of week.
Amer J Primat 81: e23026.
Hussain M, Kausar R, Qureshi AS, Jamil H (2023) Age-related gross and
histomorphometrical dynamics of pineal gland (epiphysis cereberi)
associated with melatonin profile in Beetal goat (Capra aegagrus hircus)
of Pakistan. Pakistan Vet J 43: 3.
Kalyesubula M, Casey TM, Reicher N, Sabastian C, Wein Y, Shira EB,
Hoang N, George UZ, Shamay A, Plaut K (2021) Physiological state
and photoperiod exposures differentially influence circadian rhythms
of body temperature and prolactin and relate to changes in mammary
PER1 expression in late pregnant and early lactation dairy goats.
Small Rum Res 200: 106394.
Keskin İ, Başpınar E, Altay Y, Mikail N (2023) Biyometri (Rstudio Uygulamalı),
Necmettin Erbakan Üniversitesi Basımevi, Konya, Türkiye.
Marco-Gracia FJ (2019) The influence of the lunar cycle on spontaneous
deliveries in historical rural environments. Europ J Obst Gynecol Rep
Biol 236: 22-25.
Matsumoto SI, Shirahashi K (2020) Novel perspectives on the influence
of the lunar cycle on the timing of full-term human births. Chronobiol
Int 37: 1082-1089.
McCarthy R, Jungheim ES, Fay JC, Bates K, Herzog ED, England SK
(2019) Riding the rhythm of melatonin through pregnancy to deliver
on time. Front Endocrinol 10: 616.
Miranda-de la Lama GC, Villarroel M (2023) Behavioural biology of
South American domestic camelids: An overview from a welfare perspective.
Small Rum Res 106918.
Mushap K, Buket B, Kulaksız R, Arı UÇ, Hasan O (2017) Effects of the
progesterone-based estrus synchronization on some reproductive parameters
in Abaza goats. Kocatepe Vet J 10: 164-171.
Nagy P, Juhász J (2019) Pregnancy and parturition in dromedary camels
I. Factors affecting gestation length, calf birth weight and timing of
delivery. Theriogenology 134: 24-33.
Pan X, Taylor MJ, Cohen E, Hanna N, Mota S (2020) Circadian clock,
time-restricted feeding and reproduction. Int J Mol Sci 21: 831.
Prajapati, AS, Chauhan, PM (2024) Perinatal diseases in goats. Trends in
Clinical Diseases, Production and Management of Goats, 429-448.
Raible F, Takekata H, Tessmar-Raible K (2017) An overview of monthly
rhythms and clocks. Front Neur 8: 189.
Sancar A, Lindsey-Boltz LA, Gaddameedhi S, Selby CP, Ye R, Chiou YY,
Kemp MG, Hu J, Lee JH, Ozturk N (2015) Circadian clock, cancer,
and chemotherapy. Biochemistry 54: 110-123.
Şahin Ö (2023) Distribution of births of Bafra sheep reared in the Mediterranean
region during the day. Black Sea J Agr 6: 197-203.
Takayama H, Nakamura Y, Tamura H, Yamagata Y, Harada A, Nakata M,
Sugino N, Kato H (2003) Pineal gland (melatonin) affects the parturition
time, but not luteal function and fetal growth, in pregnant rats.
Endocrinol J 50: 37-43.
Tölü C, Yazgan N, Akbağ HI, Yurtman İY, Savaş T (2022) Effects of melatonin
implants on reproductive performance of dairy sheep and dairy
goats. Rep Domest Anim 57: 665-672.
Xu J, Li Y, Wang Y, Xu Y, Zhou C (2016) Loss of Bmal1 decreases oocyte
fertilization, early embryo development and implantation potential in
female mice. Zygote 24: 760-767.
Yonezawa T, Uchida M, Tomioka M, Matsuki N (2016) Lunar cycle influences
spontaneous delivery in cows. PLoS One 11: e0161735.