Register      Login
Reproduction, Fertility and Development Reproduction, Fertility and Development Society
Vertebrate reproductive science and technology
Shopping Cart: ( empty )
You are here: Home > Journals > RD > RD21267
REVIEW
Contents Vol 34(2)

Female age and parity in horses: how and why does it matter?

Emilie Derisoud A B , Juliette Auclair-Ronzaud C , Eric Palmer D , Morgane Robles A B E and Pascale Chavatte-Palmer A B *
+ Author Affiliations
- Author Affiliations

A Université Paris-Saclay, UVSQ, INRAE, BREED, 78350 Jouy-en-Josas, France.

B Ecole Nationale Vétérinaire d’Alfort, BREED, 94700 Maisons-Alfort, France.

C Plateau technique de la station expérimentale de Chamberet, IFCE, 19370 Chamberet, France.

D Académie d’Agriculture de France, 75007 Paris, France.

E INRS Centre Armand-Frappier Santé Biotechnologie, 531 Boulevard des Prairies, H7V 1B7 Laval, QC, Canada.

* Correspondence to: pascale.chavatte-palmer@inrae.fr

Reproduction, Fertility and Development 34(2) 52-116 https://doi.org/10.1071/RD21267
Published online: 15 November 2021

© 2022 The Author(s) (or their employer(s)). Published by CSIRO Publishing on behalf of the IETS

Abstract

Although puberty can occur as early as 14–15 months of age, depending on breed and use, the reproductive career of mares may continue to advanced ages. Once mares are used as broodmares, they will usually produce foals once a year until they become unfertile, and their productivity can be enhanced and/or prolonged through embryo technologies. There is a general consensus that old mares are less fertile, but maternal age and parity are confounding factors because nulliparous mares are usually younger and older mares are multiparous in most studies. This review shows that age critically affects cyclicity, folliculogenesis, oocyte and embryo quality as well as presence of oviductal masses and uterine tract function. Maternal parity has a non-linear effect. Primiparity has a major influence on placental and foal development, with smaller foals at the first gestation that remain smaller postnatally. After the first gestation, endometrial quality and uterine clearance capacities decline progressively with increasing parity and age, whilst placental and foal birthweight and milk production increase. These combined effects should be carefully balanced when breeding mares, in particular when choosing and caring for recipients and their foals.

Keywords: embryo, fertility, foal, follicle, lactation, mare, oocyte, ovary, placenta, puberty, reproduction, uterus.


References

Abd-Elnaeim, MMM, Leiser, R, Wilsher, S, and Allen, WR (2006). Structural and haemovascular aspects of placental growth throughout gestation in young and aged mares. Placenta 27, 1103–1113.
Structural and haemovascular aspects of placental growth throughout gestation in young and aged mares.Crossref | GoogleScholarGoogle Scholar |

Adams, GP, Kastelic, JP, Bergfelt, DR, and Ginther, OJ (1987). Effect of uterine inflammation and ultrasonically-detected uterine pathology on fertility in the mare. J Reprod Fertil Suppl 35, 445–454.
| 3316644PubMed |
| 3316644PubMed |

Affonso, FJ, Meirelles, MG, Alonso, MA, Guimaraes, CF, Lemes, KM, Nichi, M, and Fernandes, CB (2016). Influence of mare parity on weight, height, thoracic circumference and vitality of neonatal foals. Journal of Equine Veterinary Science 41, 67.
Influence of mare parity on weight, height, thoracic circumference and vitality of neonatal foals.Crossref | GoogleScholarGoogle Scholar |

Aguilar, JJ, Woods, GL, Miragaya, MH, and Olsen, LM (1997). Living fibroblast cells in the oviductal masses of mares. Equine Veterinary Journal 29, 103–108.
Living fibroblast cells in the oviductal masses of mares.Crossref | GoogleScholarGoogle Scholar |

Allen, WR, Brown, L, Wright, M, and Wilsher, S (2007). Reproductive efficiency of Flatrace and National Hunt Thoroughbred mares and stallions in England. Equine Veterinary Journal 39, 438–445.
Reproductive efficiency of Flatrace and National Hunt Thoroughbred mares and stallions in England.Crossref | GoogleScholarGoogle Scholar | 17910269PubMed | 17910269PubMed |

Altermatt, JL, Suh, TK, Stokes, JE, and Carnevale, EM (2009). Effects of age and equine follicle-stimulating hormone (eFSH) on collection and viability of equine oocytes assessed by morphology and developmental competency after intracytoplasmic sperm injection (ICSI). Reproduction, Fertility and Development 21, 615.
Effects of age and equine follicle-stimulating hormone (eFSH) on collection and viability of equine oocytes assessed by morphology and developmental competency after intracytoplasmic sperm injection (ICSI).Crossref | GoogleScholarGoogle Scholar |

Altermatt, JL, Marolf, AJ, Wrigley, RH, and Carnevale, EM (2012). Effects of FSH and LH on ovarian and follicular blood flow, follicular growth and oocyte developmental competence in young and old mares. Animal Reproduction Science 133, 191–197.
Effects of FSH and LH on ovarian and follicular blood flow, follicular growth and oocyte developmental competence in young and old mares.Crossref | GoogleScholarGoogle Scholar | 22831776PubMed | 22831776PubMed |

Alves, KA, Alves, BG, Gastal, GDA, Haag, KT, Gastal, MO, Figueiredo, JR, Gambarini, ML, and Gastal, EL (2017). Preantral follicle density in ovarian biopsy fragments and effects of mare age. Reproduction, Fertility and Development 29, 867.
Preantral follicle density in ovarian biopsy fragments and effects of mare age.Crossref | GoogleScholarGoogle Scholar |

Annandale, A, Stroehle, RM, Schulman, ML, Sibeko-Matjila, KP, Fosgate, GT, Handler, J, Vemming, DC, and Clift, SJ (2018). Influence of cycle stage, age and endometrial biopsy score on oxytocin receptor distribution and gene expression in the cervix and uterus of non-pregnant mares. Theriogenology 120, 1–9.
Influence of cycle stage, age and endometrial biopsy score on oxytocin receptor distribution and gene expression in the cervix and uterus of non-pregnant mares.Crossref | GoogleScholarGoogle Scholar | 30075462PubMed | 30075462PubMed |

Aoki, T, Yamakawa, K, and Ishii, M (2013). Factors affecting gestation length in heavy draft mares. Journal of Equine Veterinary Science 33, 437–440.
Factors affecting gestation length in heavy draft mares.Crossref | GoogleScholarGoogle Scholar |

Aoki, T, Yamakawa, K, and Ishii, M (2014). Factors affecting the incidence of postpartum fever in heavy draft mares. Journal of Equine Veterinary Science 34, 719–721.
Factors affecting the incidence of postpartum fever in heavy draft mares.Crossref | GoogleScholarGoogle Scholar |

Avci, M, Tirpan, MB, Tekin, K, and Akçay, E (2016). The influence of insemination time, age and semen dose on fertility of mares inseminated with frozen semen. Ankara Üniversitesi Veteriner Fakültesi Dergisi 63, 359–363.
The influence of insemination time, age and semen dose on fertility of mares inseminated with frozen semen.Crossref | GoogleScholarGoogle Scholar |

Bain, AM (1969). Foetal losses during pregnancy in the thoroughbred mare: a record of 2562 pregnancies. New Zealand Veterinary Journal 17, 155–158.
Foetal losses during pregnancy in the thoroughbred mare: a record of 2562 pregnancies.Crossref | GoogleScholarGoogle Scholar | 5260644PubMed | 5260644PubMed |

Baker, CB, Little, TV, and McDowell, KJ (1993). The live foaling rate per cycle in mares. Equine Veterinary Journal 25, 28–30.
The live foaling rate per cycle in mares.Crossref | GoogleScholarGoogle Scholar |

Ball, BA, Little, TV, Hillman, RB, and Woods, GL (1986). Pregnancy rates at Days 2 and 14 and estimated embryonic loss rates prior to day 14 in normal and subfertile mares. Theriogenology 26, 611–619.
Pregnancy rates at Days 2 and 14 and estimated embryonic loss rates prior to day 14 in normal and subfertile mares.Crossref | GoogleScholarGoogle Scholar | 16726227PubMed | 16726227PubMed |

Ball, BA, Little, TV, Weber, JA, and Woods, GL (1989). Survival of Day-4 embryos from young, normal mares and aged, subfertile mares after transfer to normal recipient mares. Reproduction 85, 187–194.
Survival of Day-4 embryos from young, normal mares and aged, subfertile mares after transfer to normal recipient mares.Crossref | GoogleScholarGoogle Scholar |

Ball, BA, El-Sheikh Ali, H, Scoggin, KE, Riddle, WT, Schnobrich, M, Bradekamp, E, Agnew, M, Squires, EL, and Troedsson, MHT (2019). Relationship between anti-Müllerian hormone and fertility in the mare. Theriogenology 125, 335–341.
Relationship between anti-Müllerian hormone and fertility in the mare.Crossref | GoogleScholarGoogle Scholar | 30508805PubMed | 30508805PubMed |

Barbacini, S, Marchi, V, and Zavaglia, G (1999). Equine frozen semen: results obtained in Italy during the 1994-1997 period. Equine Veterinary Education 11, 109–112.
Equine frozen semen: results obtained in Italy during the 1994-1997 period.Crossref | GoogleScholarGoogle Scholar |

Barbacini, S, Zavaglia, G, Gulden, P, Marchi, V, and Necchi, D (2000). Retrospective study on the efficacy of hCG in an equine artificial insemination programme using frozen semen. Equine Veterinary Education 12, 312–317.
Retrospective study on the efficacy of hCG in an equine artificial insemination programme using frozen semen.Crossref | GoogleScholarGoogle Scholar |

Barreto, ÍMLG, Urbano, SA, Oliveira, CAA, Macêdo, CS, Borba, LHF, Chags, BME, and Rangel, AHN (2020). Chemical composition and lipid profile of mare colostrum and milk of the quarter horse breed. PLoS One 15, e0238921.
Chemical composition and lipid profile of mare colostrum and milk of the quarter horse breed.Crossref | GoogleScholarGoogle Scholar | 32925944PubMed | 32925944PubMed |

Barron, JK (1995). The effect of maternal age and parity on the racing performance of Thoroughbred horses. Equine Veterinary Journal 27, 73–75.
The effect of maternal age and parity on the racing performance of Thoroughbred horses.Crossref | GoogleScholarGoogle Scholar | 7774552PubMed | 7774552PubMed |

Bene, S, Benedek, Z, Szabó, F, and Polgár, P (2014). Some effects on gestation length of traditional horse breeds in hungary. Journal of Central European Agriculture 15, 1–10.
Some effects on gestation length of traditional horse breeds in hungary.Crossref | GoogleScholarGoogle Scholar |

Benhajali, H, Richard-Yris, M-A, Ezzaouia, M, Charfi, F, and Hausberger, M (2010). Factors influencing conception rates of Arab mares in Tunisia. Animal Reproduction Science 117, 106–110.
Factors influencing conception rates of Arab mares in Tunisia.Crossref | GoogleScholarGoogle Scholar | 19481379PubMed | 19481379PubMed |

Bollwein, H, Maierl, J, Mayer, R, and Stolla, R (1998). Transrectal color Doppler sonography of the A. uterina in cyclic mares. Theriogenology 49, 1483–1488.
Transrectal color Doppler sonography of the A. uterina in cyclic mares.Crossref | GoogleScholarGoogle Scholar | 10732012PubMed | 10732012PubMed |

Bos, H, and van der Mey, GJW (1980). Length of gestation periods of horses and ponies belonging to different breeds. Livestock Production Science 7, 181–187.
Length of gestation periods of horses and ponies belonging to different breeds.Crossref | GoogleScholarGoogle Scholar |

Bosh, KA, Powell, D, Neibergs, JS, Shelton, B, and Zent, W (2009). Impact of reproductive efficiency over time and mare financial value on economic returns among Thoroughbred mares in central Kentucky. Equine Veterinary Journal 41, 889–894.
Impact of reproductive efficiency over time and mare financial value on economic returns among Thoroughbred mares in central Kentucky.Crossref | GoogleScholarGoogle Scholar | 20383987PubMed | 20383987PubMed |

Bracher, V, Mathias, S, and Allen, WR (1992). Videoendoscopic evaluation of the mare’s uterus: II. Findings in subfertile mares. Equine Veterinary Journal 24, 279–284.
Videoendoscopic evaluation of the mare’s uterus: II. Findings in subfertile mares.Crossref | GoogleScholarGoogle Scholar | 1499535PubMed | 1499535PubMed |

Bracher, V, Mathias, S, and Allen, WR (1996). Influence of chronic degenerative endometritis (endometrosis) on placental development in the mare. Equine Veterinary Journal 28, 180–188.
Influence of chronic degenerative endometritis (endometrosis) on placental development in the mare.Crossref | GoogleScholarGoogle Scholar | 28976715PubMed | 28976715PubMed |

Brinsko, SP, Ball, BA, Miller, PG, Thomas, PGA, and Ellington, JE (1994). In vitro development of day 2 embryos obtained from young, fertile mares and aged, subfertile mares. Reproduction 102, 371–378.
In vitro development of day 2 embryos obtained from young, fertile mares and aged, subfertile mares.Crossref | GoogleScholarGoogle Scholar |

Brinsko, SP, Ball, BA, and Ellington, JE (1995). In vitro maturation of equine oocytes obtained from different age groups of sexually mature mares. Theriogenology 44, 461–469.
In vitro maturation of equine oocytes obtained from different age groups of sexually mature mares.Crossref | GoogleScholarGoogle Scholar | 16727745PubMed | 16727745PubMed |

Brinsko, SP, Ignotz, GG, Ball, BA, Thomas, PGA, Currie, WB, and Ellington, JE (1996). Characterization of polypeptides synthesized and secreted by oviductal epithelial cell explants obtained from young, fertile and aged, subfertile mares. American Journal of Veterinary Research 57, 1346–1353.
| 8874731PubMed |
| 8874731PubMed |

Brück, I, Anderson, GA, and Hyland, JH (1993). Reproductive performance of Thoroughbred mares on six commercial stud farms. Australian Veterinary Journal 70, 299–303.
Reproductive performance of Thoroughbred mares on six commercial stud farms.Crossref | GoogleScholarGoogle Scholar | 8216096PubMed | 8216096PubMed |

Burkhardt, J (1947). Transition from anoestrus in the mare and the effects of artificial lighting. The Journal of Agricultural Science 37, 64–68.
Transition from anoestrus in the mare and the effects of artificial lighting.Crossref | GoogleScholarGoogle Scholar |

Camargo Ferreira, J, Linhares Boakari, Y, Sousa Rocha, N, Saules Ignácio, F, Barbosa da Costa, G, and de Meira, C (2019). Luteal vascularity and embryo dynamics in mares during early gestation: Effect of age and endometrial degeneration. Reproduction in Domestic Animals 54, 571–579.
Luteal vascularity and embryo dynamics in mares during early gestation: Effect of age and endometrial degeneration.Crossref | GoogleScholarGoogle Scholar | 30585364PubMed | 30585364PubMed |

Campos-Chillon, F, Farmerie, TA, Bouma, GJ, Clay, CM, and Carnevale, EM (2015). Effects of aging on gene expression and mitochondrial DNA in the equine oocyte and follicle cells. Reproduction, Fertility and Development 27, 925.
Effects of aging on gene expression and mitochondrial DNA in the equine oocyte and follicle cells.Crossref | GoogleScholarGoogle Scholar |

Carluccio, A, Bucci, R, Fusi, J, Robbe, D, and Veronesi, MC (2020). Effect of age and of reproductive status on reproductive indices in horse mares carrying mule pregnancies. Heliyon 6, e05175.
Effect of age and of reproductive status on reproductive indices in horse mares carrying mule pregnancies.Crossref | GoogleScholarGoogle Scholar | 33083622PubMed | 33083622PubMed |

Carnevale, EM (2008). The mare model for follicular maturation and reproductive aging in the woman. Theriogenology 69, 23–30.
The mare model for follicular maturation and reproductive aging in the woman.Crossref | GoogleScholarGoogle Scholar | 17976712PubMed | 17976712PubMed |

Carnevale, EM, and Ginther, OJ (1992). Relationships of age to uterine function and reproductive efficiency in mares. Theriogenology 37, 1101–1115.
Relationships of age to uterine function and reproductive efficiency in mares.Crossref | GoogleScholarGoogle Scholar | 16727108PubMed | 16727108PubMed |

Carnevale, EM, and Ginther, OJ (1995). Defective oocytes as a cause of subfertility in old mares. Biology of Reproduction 52, 209–214.
Defective oocytes as a cause of subfertility in old mares.Crossref | GoogleScholarGoogle Scholar |

Carnevale, EM, Bergfelt, DR, and Ginther, OJ (1993a). Aging effects on follicular activity and concentrations of FSH, LH, and progesterone in mares. Animal Reproduction Science 31, 287–299.
Aging effects on follicular activity and concentrations of FSH, LH, and progesterone in mares.Crossref | GoogleScholarGoogle Scholar |

Carnevale, EM, Griffin, PG, and Ginther, OJ (1993b). Age-associated subfertility before entry of embryos into the uterus in mares. Equine Veterinary Journal 25, 31–35.
Age-associated subfertility before entry of embryos into the uterus in mares.Crossref | GoogleScholarGoogle Scholar |

Carnevale, EM, Bergfelt, DR, and Ginther, OJ (1994). Follicular activity and concentrations of FSH and LH associated with senescence in mares. Animal Reproduction Science 35, 231–246.
Follicular activity and concentrations of FSH and LH associated with senescence in mares.Crossref | GoogleScholarGoogle Scholar |

Carnevale, EM, Hermenet, MJ, and Ginther, OJ (1997). Age and pasture effects on vernal transition in mares. Theriogenology 47, 1009–1018.
Age and pasture effects on vernal transition in mares.Crossref | GoogleScholarGoogle Scholar | 16728051PubMed | 16728051PubMed |

Carnevale, EM, Uson, M, Bozzola, JJ, King, SS, Schmitt, SJ, and Gates, HD (1999). Comparison of oocytes from young and old mares with light and electron microscopy. Theriogenology 51, 299.
Comparison of oocytes from young and old mares with light and electron microscopy.Crossref | GoogleScholarGoogle Scholar |

Carnevale, EM, Ramirez, RJ, Squires, EL, Alvarenga, MA, Vanderwall, DK, and McCue, PM (2000). Factors affecting pregnancy rates and early embryonic death after equine embryo transfer. Theriogenology 54, 965–979.
Factors affecting pregnancy rates and early embryonic death after equine embryo transfer.Crossref | GoogleScholarGoogle Scholar | 11097048PubMed | 11097048PubMed |

Carnevale, EM, Coutinho da Silva, MA, Panzani, D, Stokes, JE, and Squires, EL (2005). Factors affecting the success of oocyte transfer in a clinical program for subfertile mares. Theriogenology 64, 519–527.
Factors affecting the success of oocyte transfer in a clinical program for subfertile mares.Crossref | GoogleScholarGoogle Scholar | 15950272PubMed | 15950272PubMed |

Catandi, GD, Obeidat, YM, Broeckling, CD, Chen, TW, Chicco, AJ, and Carnevale, EM (2021). Equine maternal aging affects oocyte lipid content, metabolic function and developmental potential. Reproduction 161, 399–409.
Equine maternal aging affects oocyte lipid content, metabolic function and developmental potential.Crossref | GoogleScholarGoogle Scholar | 33539317PubMed | 33539317PubMed |

Chavatte, P (1991). Maternal behaviour in the horse; theory and practical applications to foal rejection and fostering. Equine Veterinary Education 3, 215–220.
Maternal behaviour in the horse; theory and practical applications to foal rejection and fostering.Crossref | GoogleScholarGoogle Scholar |

Chevalier-Clément, F (1989). Pregnancy loss in the mare. Animal Reproduction Science 20, 231–244.
Pregnancy loss in the mare.Crossref | GoogleScholarGoogle Scholar |

Christmann, A, Sieme, H, Martinsson, G, and Distl, O (2017). Genetic and environmental factors influencing gestation length and parturition conception interval in Hanoverian warmblood. Livestock Science 199, 63–68.
Genetic and environmental factors influencing gestation length and parturition conception interval in Hanoverian warmblood.Crossref | GoogleScholarGoogle Scholar |

Claes, A, Ball, BA, Scoggin, KE, Esteller-Vico, A, Kalmar, JJ, Conley, AJ, Squires, EL, and Troedsson, MHT (2015). The interrelationship between anti-Müllerian hormone, ovarian follicular populations and age in mares. Equine Veterinary Journal 47, 537–541.
The interrelationship between anti-Müllerian hormone, ovarian follicular populations and age in mares.Crossref | GoogleScholarGoogle Scholar | 25124401PubMed | 25124401PubMed |

Claes, A, Ball, BA, Scoggin, KE, Roser, JF, Woodward, EM, Davolli, GM, Squires, EL, and Troedsson, MHT (2017). The influence of age, antral follicle count and diestrous ovulations on estrous cycle characteristics of mares. Theriogenology 97, 34–40.
The influence of age, antral follicle count and diestrous ovulations on estrous cycle characteristics of mares.Crossref | GoogleScholarGoogle Scholar | 28583606PubMed | 28583606PubMed |

Claes, A, Cuervo-Arango, J, van den Broek, J, Galli, C, Colleoni, S, Lazzari, G, Deelen, C, Beitsma, M, and Stout, TA (2019). Factors affecting the likelihood of pregnancy and embryonic loss after transfer of cryopreserved in vitro produced equine embryos. Equine Veterinary Journal 51, 446–450.
Factors affecting the likelihood of pregnancy and embryonic loss after transfer of cryopreserved in vitro produced equine embryos.Crossref | GoogleScholarGoogle Scholar | 30269336PubMed | 30269336PubMed |

Cox, L, Vanderwall, DK, Parkinson, KC, Sweat, A, and Isom, SC (2015). Expression profiles of select genes in cumulus–oocyte complexes from young and aged mares. Reproduction, Fertility and Development 27, 914–924.
Expression profiles of select genes in cumulus–oocyte complexes from young and aged mares.Crossref | GoogleScholarGoogle Scholar |

Crociati, M, Capomaccio, S, Mandara, MT, Stradaioli, G, Sylla, L, Monaci, M, and Cappelli, K (2019). Different expression of Defensin-B gene in the endometrium of mares of different age during the breeding season. BMC Veterinary Research 15, 465.
Different expression of Defensin-B gene in the endometrium of mares of different age during the breeding season.Crossref | GoogleScholarGoogle Scholar | 31864349PubMed | 31864349PubMed |

Cuervo-Arango, J, Claes, AN, and Stout, TAE (2019a). Mare and stallion effects on blastocyst production in a commercial equine ovum pick-up-intracytoplasmic sperm injection program. Reproduction, Fertility and Development 31, 1894.
Mare and stallion effects on blastocyst production in a commercial equine ovum pick-up-intracytoplasmic sperm injection program.Crossref | GoogleScholarGoogle Scholar |

Cuervo-Arango, J, Claes, AN, and Stout, TA (2019b). A retrospective comparison of the efficiency of different assisted reproductive techniques in the horse, emphasizing the impact of maternal age. Theriogenology 132, 36–44.
A retrospective comparison of the efficiency of different assisted reproductive techniques in the horse, emphasizing the impact of maternal age.Crossref | GoogleScholarGoogle Scholar | 30986613PubMed | 30986613PubMed |

Cymbaluk, NF, and Laarveld, B (1996). The ontogeny of serum insulin-like growth factor-I concentration in foals: effects of dam parity, diet, and age at weaning. Domestic Animal Endocrinology 13, 197–209.
The ontogeny of serum insulin-like growth factor-I concentration in foals: effects of dam parity, diet, and age at weaning.Crossref | GoogleScholarGoogle Scholar | 8738861PubMed | 8738861PubMed |

da Silveira, JC, Veeramachaneni, DNR, Winger, QA, Carnevale, EM, and Bouma, GJ (2012). Cell-secreted vesicles in equine ovarian follicular fluid contain miRNAs and proteins: a possible new form of cell communication within the ovarian follicle. Biology of Reproduction 86, 71.
Cell-secreted vesicles in equine ovarian follicular fluid contain miRNAs and proteins: a possible new form of cell communication within the ovarian follicle.Crossref | GoogleScholarGoogle Scholar | 22116803PubMed | 22116803PubMed |

da Silveira, JC, Winger, QA, Bouma, GJ, and Carnevale, EM (2015). Effects of age on follicular fluid exosomal microRNAs and granulosa cell transforming growth factor-β signalling during follicle development in the mare. Reproduction, Fertility and Development 27, 897.
Effects of age on follicular fluid exosomal microRNAs and granulosa cell transforming growth factor-β signalling during follicle development in the mare.Crossref | GoogleScholarGoogle Scholar |

Davies Morel, MCG, and O’Sullivan, JAM (2001). Ovulation rate and distribution in the thoroughbred mare, as determined by ultrasonic scanning: the effect of age. Animal Reproduction Science 66, 59–70.
Ovulation rate and distribution in the thoroughbred mare, as determined by ultrasonic scanning: the effect of age.Crossref | GoogleScholarGoogle Scholar |

Davies Morel, MCG, Newcombe, JR, and Holland, SJ (2002). Factors affecting gestation length in the Thoroughbred mare. Animal Reproduction Science 74, 175–185.
Factors affecting gestation length in the Thoroughbred mare.Crossref | GoogleScholarGoogle Scholar |

Davies Morel, MCG, Newcombe, JR, and Hayward, K (2010). Factors affecting pre-ovulatory follicle diameter in the mare: the effect of mare age, season and presence of other ovulatory follicles (multiple ovulation). Theriogenology 74, 1241–1247.
Factors affecting pre-ovulatory follicle diameter in the mare: the effect of mare age, season and presence of other ovulatory follicles (multiple ovulation).Crossref | GoogleScholarGoogle Scholar |

Davis, SR, Lambrinoudaki, I, Lumsden, M, Mishra, GD, Pal, L, Rees, M, Santoro, N, and Simoncini, T (2015). Menopause. Nature Reviews Disease Primers 1, 15004.
Menopause.Crossref | GoogleScholarGoogle Scholar | 27188659PubMed | 27188659PubMed |

Day, FT, and Rowlands, IW (1946). Serum gonadotrophin in welsh and shetland ponies. Journal of Endocrinology 5, 1–8.
Serum gonadotrophin in welsh and shetland ponies.Crossref | GoogleScholarGoogle Scholar |

de Mestre, AM, Rose, BV, Chang, YM, Wathes, DC, and Verheyen, KLP (2019). Multivariable analysis to determine risk factors associated with early pregnancy loss in thoroughbred broodmares. Theriogenology 124, 18–23.
Multivariable analysis to determine risk factors associated with early pregnancy loss in thoroughbred broodmares.Crossref | GoogleScholarGoogle Scholar | 30326374PubMed | 30326374PubMed |

Derisoud, E, Jouneau, L, Dubois, C, Archilla, C, Jaszczyszyn, Y, Legendre, R, Daniel, N, Peynot, N, Dahirel, M, Auclair-Ronzaud, J, Wimel, L, Duranthon, V, and Chavatte-Palmer, P (2021). Maternal age affects equine Day 8 embryo gene expression both in trophoblast and inner cell mass. bioRxiv , .
Maternal age affects equine Day 8 embryo gene expression both in trophoblast and inner cell mass.Crossref | GoogleScholarGoogle Scholar |

Doig, PA, McKnight, JD, and Miller, RB (1981). The use of endometrial biopsy in the infertile mare. Canadian Veterinary Journal 22, 72–76.

Doreau M, Martuzzi F (2006) Milk yield of nursing and dairy mares. In ‘Nutrition and feeding of the broodmare. Vol. 120’. European Association for Animal Production. (Eds N Miraglia, W Martin-Rosset) pp. 57–64. (Wageningen Academic: Wageningen, Netherlands)

Doreau, M, Boulot, S, and Martin-Rosset, W (1991). Effect of parity and physiological state on intake, milk production and blood parameters in lactating mares differing in body size. Animal Science 53, 111–118.
Effect of parity and physiological state on intake, milk production and blood parameters in lactating mares differing in body size.Crossref | GoogleScholarGoogle Scholar |

Driancourt, M-A, Prunier, A, Palmer, E, and Mariana, J-C (1983). Seasonal effects on ovarian follicular development in pony mares. Reproduction Nutrition Development 23, 207–215.
Seasonal effects on ovarian follicular development in pony mares.Crossref | GoogleScholarGoogle Scholar |

Dubrovskaya, AB, Lebedeva, LF, and Schukis, KA (2019). Comparative histomorphological characteristics of the endometrium of young and aged mares in estrus and diestrus. IOP Conference Series: Earth and Environmental Science 341, 012067.
Comparative histomorphological characteristics of the endometrium of young and aged mares in estrus and diestrus.Crossref | GoogleScholarGoogle Scholar |

Ducheyne, KD, Rizzo, M, Daels, PF, Stout, TAE, and de Ruijter-Villani, M (2019). Vitrifying immature equine oocytes impairs their ability to correctly align the chromosomes on the MII spindle. Reproduction, Fertility and Development 31, 1330.
Vitrifying immature equine oocytes impairs their ability to correctly align the chromosomes on the MII spindle.Crossref | GoogleScholarGoogle Scholar |

Duncan, P, Harvey, PH, and Wells, SM (1984). On lactation and associated behaviour in a natural herd of horses. Animal Behaviour 32, 255–263.
On lactation and associated behaviour in a natural herd of horses.Crossref | GoogleScholarGoogle Scholar |

Duranthon, V, and Chavatte-Palmer, P (2018). Long term effects of ART: What do animals tell us? Molecular Reproduction and Development 85, 348–368.
Long term effects of ART: What do animals tell us?Crossref | GoogleScholarGoogle Scholar | 29457303PubMed | 29457303PubMed |

Eilts, BE, Scholl, DT, Paccamonti, DL, Causey, R, Klimczak, JC, and Corley, JR (1995). Prevalence of endometrial cysts and their effect on fertility. Biology of Reproduction 52, 527–532.
Prevalence of endometrial cysts and their effect on fertility.Crossref | GoogleScholarGoogle Scholar |

Elliott, C, Morton, J, and Chopin, J (2009). Factors affecting foal birth weight in Thoroughbred horses. Theriogenology 71, 683–689.
Factors affecting foal birth weight in Thoroughbred horses.Crossref | GoogleScholarGoogle Scholar | 18980778PubMed | 18980778PubMed |

Erhard, MH, Luft, C, Remler, H-P, and Stangassinger, M (2001). Assessment of colostral transfer and systemic availability of immunoglobulin G in new-born foals using a newly developed enzyme-linked immunosorbent assay (ELISA) system. Journal of Animal Physiology and Animal Nutrition 85, 164–173.
Assessment of colostral transfer and systemic availability of immunoglobulin G in new-born foals using a newly developed enzyme-linked immunosorbent assay (ELISA) system.Crossref | GoogleScholarGoogle Scholar | 11686785PubMed | 11686785PubMed |

Esteller-Vico, A, Liu, IK, and Couto, S (2012). Uterine vascular degeneration is present throughout the uterine wall of multiparous mares. Colinearity between elastosis, endometrial grade, age and parity. Theriogenology 78, 1078–1084.
Uterine vascular degeneration is present throughout the uterine wall of multiparous mares. Colinearity between elastosis, endometrial grade, age and parity.Crossref | GoogleScholarGoogle Scholar | 22763073PubMed | 22763073PubMed |

Esteller-Vico, A, Liu, IKM, Vaughan, B, Steffey, EP, and Brosnan, RJ (2015). Effects of vascular elastosis on uterine blood flow and perfusion in anesthetized mares. Theriogenology 83, 988–994.
Effects of vascular elastosis on uterine blood flow and perfusion in anesthetized mares.Crossref | GoogleScholarGoogle Scholar | 25543154PubMed | 25543154PubMed |

Evans, MJ, Hamer, JM, Gason, LM, and Irvine, CHG (1987). Factors affecting uterine clearance of inoculated materials in mares. Journal of Reproduction and Fertility. Supplement 35, 327–334.
| 3316642PubMed |
| 3316642PubMed |

Ewert, M, Lüders, I, Böröcz, J, Uphaus, H, Distl, O, and Sieme, H (2018). Determinants of gestation length in Thoroughbred mares on German stud farms. Animal Reproduction Science 191, 22–33.
Determinants of gestation length in Thoroughbred mares on German stud farms.Crossref | GoogleScholarGoogle Scholar | 29475570PubMed | 29475570PubMed |

Farquhar, VJ, McCue, MP, Vanderwall, DK, and Squires, EL (2000). Efficacy of the gnrh agonist deslorelin acetate for inducing ovulation in mares relative to age of mare and season. Journal of Equine Veterinary Science 20, 722–725.
Efficacy of the gnrh agonist deslorelin acetate for inducing ovulation in mares relative to age of mare and season.Crossref | GoogleScholarGoogle Scholar |

Fernandes, CB, Meirelles, MG, Guimaraes, CF, Nichi, M, Affonso, FJ, Fonte, JS, Onoe, E, and Alonso, MA (2014). Which paternal, maternal and placental parameters influence foal size and vitality? Journal of Equine Veterinary Science 34, 225–227.
Which paternal, maternal and placental parameters influence foal size and vitality?Crossref | GoogleScholarGoogle Scholar |

Ferreira, JC, Gastal, EL, and Ginther, OJ (2008). Uterine blood flow and perfusion in mares with uterine cysts: effect of the size of the cystic area and age. Reproduction 135, 541–550.
Uterine blood flow and perfusion in mares with uterine cysts: effect of the size of the cystic area and age.Crossref | GoogleScholarGoogle Scholar | 18296511PubMed | 18296511PubMed |

Ferreira, JC, Canesin, HS, Ignácio, FS, Rocha, NS, Pinto, CR, and Meira, C (2015). Effect of age and endometrial degenerative changes on uterine blood flow during early gestation in mares. Theriogenology 84, 1123–1130.
Effect of age and endometrial degenerative changes on uterine blood flow during early gestation in mares.Crossref | GoogleScholarGoogle Scholar | 26194699PubMed | 26194699PubMed |

Filipović, N, Stojević, Z, Plevnik, N, Mašek, T, Prvanović, N, and Tuček, Z (2014). The influence of age on bone metabolism in mares during late pregnancy and lactation. Research in Veterinary Science 97, 194–198.
The influence of age on bone metabolism in mares during late pregnancy and lactation.Crossref | GoogleScholarGoogle Scholar | 25092477PubMed | 25092477PubMed |

Franco Ayala, MS, and Oliver-Espinosa, OJ (2016). Risk factors associated with failure of passive transfer of colostral immunoglobulins in neonatal paso fino foals. Journal of Equine Veterinary Science 44, 100–104.
Risk factors associated with failure of passive transfer of colostral immunoglobulins in neonatal paso fino foals.Crossref | GoogleScholarGoogle Scholar |

Frank, BL, Doddman, CD, Stokes, JE, and Carnevale, EM (2019). Association of equine oocyte and cleavage stage embryo morphology with maternal age and pregnancy after intracytoplasmic sperm injection. Reproduction, Fertility and Development 31, 1812.
Association of equine oocyte and cleavage stage embryo morphology with maternal age and pregnancy after intracytoplasmic sperm injection.Crossref | GoogleScholarGoogle Scholar |

Frazer, GS (2003). Post partum complications in the mare. Part 2: Fetal membrane retention and conditions of the gastrointestinal tract, bladder and vagina. Equine Veterinary Education 15, 91–100.
Post partum complications in the mare. Part 2: Fetal membrane retention and conditions of the gastrointestinal tract, bladder and vagina.Crossref | GoogleScholarGoogle Scholar |

Gibbs, PG, and Davison, KE (1992). A field study on reproductive efficiency of mares maintained predominately on native pasture. Journal of Equine Veterinary Science 12, 219–222.
A field study on reproductive efficiency of mares maintained predominately on native pasture.Crossref | GoogleScholarGoogle Scholar |

Gibbs, P, Potter, G, Blake, R, and McMullan, W (1982). Milk production of quarter horse mares during 150 days of lactation. Journal of Animal Science 54, 496–499.
Milk production of quarter horse mares during 150 days of lactation.Crossref | GoogleScholarGoogle Scholar | 7085510PubMed | 7085510PubMed |

Ginther OJ (1992) ‘Reproductive biology of the mare: basic and applied aspects’. (Equiservices: Cross Plains, WS, USA)

Ginther, OJ, and Williams, D (1996). On-the-farm incidence and nature of equine dystocias. Journal of Equine Veterinary Science 16, 159–164.
On-the-farm incidence and nature of equine dystocias.Crossref | GoogleScholarGoogle Scholar |

Ginther, OJ, Douglas, RH, and Lawrence, JR (1982). Twinning in mares: a survey of veterinarians and analyses of theriogenology records. Theriogenology 18, 333–347.
Twinning in mares: a survey of veterinarians and analyses of theriogenology records.Crossref | GoogleScholarGoogle Scholar | 16725755PubMed | 16725755PubMed |

Ginther, OJ, Carnevale, EM, and Bergfelt, DR (1993). Delay in emergence of the ovulatory follicular wave on old mares. Journal of Equine Veterinary Science 13, 75–79.
Delay in emergence of the ovulatory follicular wave on old mares.Crossref | GoogleScholarGoogle Scholar |

Ginther, OJ, Gastal, MO, Gastal, EL, Jacob, JC, Siddiqui, MAR, and Beg, MA (2008). Effects of age on follicle and hormone dynamics during the oestrous cycle in mares. Reproduction, Fertility and Development 20, 955–963.
Effects of age on follicle and hormone dynamics during the oestrous cycle in mares.Crossref | GoogleScholarGoogle Scholar |

Ginther, OJ, Gastal, MO, Gastal, EL, Jacob, JC, and Beg, MA (2009). Age-related dynamics of follicles and hormones during an induced ovulatory follicular wave in mares. Theriogenology 71, 780–788.
Age-related dynamics of follicles and hormones during an induced ovulatory follicular wave in mares.Crossref | GoogleScholarGoogle Scholar | 19004489PubMed | 19004489PubMed |

Goncalves, GR, Morotti, F, Colombo, AHB, Bonato, DV, Bizarro-Silva, C, Rosa, CO, Cavalieri, FLB, and Seneda, MM (2020). Influence of age and ovarian antral follicle count on the reproductive characteristics of embryo donor mares. Veterinary Record 186, 564.
Influence of age and ovarian antral follicle count on the reproductive characteristics of embryo donor mares.Crossref | GoogleScholarGoogle Scholar |

Grüninger, B, Schoon, H-A, Schoon, D, Menger, S, and Klug, E (1998). Incidence and morphology of endometrial angiopathies in mares in relationship to age and parity. Journal of Comparative Pathology 119, 293–309.
Incidence and morphology of endometrial angiopathies in mares in relationship to age and parity.Crossref | GoogleScholarGoogle Scholar | 9807730PubMed | 9807730PubMed |

Haadem, CS, Nødtvedt, A, Farstad, W, and Thomassen, R (2015). A retrospective cohort study on fertility in the Norwegian Coldblooded trotter after artificial insemination with cooled, shipped versus fresh extended semen. Acta Veterinaria Scandinavica 57, 77.
A retrospective cohort study on fertility in the Norwegian Coldblooded trotter after artificial insemination with cooled, shipped versus fresh extended semen.Crossref | GoogleScholarGoogle Scholar | 26578337PubMed | 26578337PubMed |

Haas, SD, Bristol, F, and Card, CE (1996). Risk factors associated with the incidence of foal mortality in an extensively managed mare herd. Canadian Veterinary Journal 37, 91–95.

Hanlon, DW, Stevenson, M, Evans, MJ, and Firth, EC (2012). Reproductive performance of Thoroughbred mares in the Waikato region of New Zealand: 1. Descriptive analyses. New Zealand Veterinary Journal 60, 329–334.
Reproductive performance of Thoroughbred mares in the Waikato region of New Zealand: 1. Descriptive analyses.Crossref | GoogleScholarGoogle Scholar | 22905831PubMed | 22905831PubMed |

Heidler, B, Aurich, JE, Pohl, W, and Aurich, C (2004). Body weight of mares and foals, estrous cycles and plasma glucose concentration in lactating and non-lactating Lipizzaner mares. Theriogenology 61, 883–893.
Body weight of mares and foals, estrous cycles and plasma glucose concentration in lactating and non-lactating Lipizzaner mares.Crossref | GoogleScholarGoogle Scholar | 14757474PubMed | 14757474PubMed |

Heitor, F, and Vicente, L (2008). Maternal care and foal social relationships in a herd of Sorraia horses: Influence of maternal rank and experience. Applied Animal Behaviour Science 113, 189–205.
Maternal care and foal social relationships in a herd of Sorraia horses: Influence of maternal rank and experience.Crossref | GoogleScholarGoogle Scholar |

Hemberg, E, Lundeheim, N, and Einarsson, S (2004). Reproductive performance of Thoroughbred Mares in Sweden. Reproduction in Domestic Animals 39, 81–85.
Reproductive performance of Thoroughbred Mares in Sweden.Crossref | GoogleScholarGoogle Scholar | 15065988PubMed | 15065988PubMed |

Hendriks, WK, Colenbrander, B, van der Weijden, GC, and Stout, TAE (2009). Maternal age and parity influence ultrasonographic measurements of fetal growth in Dutch Warmblood mares. Animal Reproduction Science 115, 110–123.
Maternal age and parity influence ultrasonographic measurements of fetal growth in Dutch Warmblood mares.Crossref | GoogleScholarGoogle Scholar | 19157730PubMed | 19157730PubMed |

Hendriks, WK, Colleoni, S, Galli, C, Paris, DBBP, Colenbrander, B, Roelen, BAJ, and Stout, TAE (2015). Maternal age and in vitro culture affect mitochondrial number and function in equine oocytes and embryos. Reproduction, Fertility and Development 27, 957.
Maternal age and in vitro culture affect mitochondrial number and function in equine oocytes and embryos.Crossref | GoogleScholarGoogle Scholar |

Hevia, ML, Quiles, AJ, Fuentes, F, and Gonzalo, C (1994). Reproductive performance of thoroughbred horses in Spain. Journal of Equine Veterinary Science 14, 89–92.
Reproductive performance of thoroughbred horses in Spain.Crossref | GoogleScholarGoogle Scholar |

Hintz, HF, Hintz, RL, and Van Vleck, LD (1979). Growth rate of thouroughbreds. effects of age of dam, year and month of birth, and sex of foal. Journal of Animal Science 48, 480–487.
Growth rate of thouroughbreds. effects of age of dam, year and month of birth, and sex of foal.Crossref | GoogleScholarGoogle Scholar | 575130PubMed | 575130PubMed |

Houpt, K, and Lieb, S (1994). A survey of foal rejecting mares. Applied Animal Behaviour Science 39, 188.
A survey of foal rejecting mares.Crossref | GoogleScholarGoogle Scholar |

Hutton, CA, and Meacham, TN (1968). Reproductive efficiency on fourteen horse farms. Journal of Animal Science 27, 434.
Reproductive efficiency on fourteen horse farms.Crossref | GoogleScholarGoogle Scholar | 5646343PubMed | 5646343PubMed |

Jeffcott, LB, Rossdale, PD, Freestone, J, Frank, CJ, and Towers-Clark, PF (1982). An assessment of wastage in Thoroughbred racing from conception to 4 years of age. Equine Veterinary Journal 14, 185–198.
An assessment of wastage in Thoroughbred racing from conception to 4 years of age.Crossref | GoogleScholarGoogle Scholar | 7106081PubMed | 7106081PubMed |

Juarbe-Díaz, SV, Houpt, KA, and Kusunose, R (1998). Prevalence and characteristics of foal rejection in Arabian mares. Equine Veterinary Journal 30, 424–428.
Prevalence and characteristics of foal rejection in Arabian mares.Crossref | GoogleScholarGoogle Scholar | 9758101PubMed | 9758101PubMed |

Kareskoski, M, Venhoranta, H, Virtala, A-M, and Katila, T (2019). Analysis of factors affecting the pregnancy rate of mares after inseminations with cooled transported stallion semen. Theriogenology 127, 7–14.
Analysis of factors affecting the pregnancy rate of mares after inseminations with cooled transported stallion semen.Crossref | GoogleScholarGoogle Scholar | 30611014PubMed | 30611014PubMed |

Katila, T, Reilas, T, Nivola, K, Peltonen, T, and Virtala, A-M (2010). A 15-year survey of reproductive efficiency of Standardbred and Finnhorse trotters in Finland – descriptive results. Acta Veterinaria Scandinavica 52, 40.
A 15-year survey of reproductive efficiency of Standardbred and Finnhorse trotters in Finland – descriptive results.Crossref | GoogleScholarGoogle Scholar | 20546559PubMed | 20546559PubMed |

Kenney, RM (1978). Cyclic and pathologic changes of the mare endometrium as detected by biopsy, with a note on early embryonic death. Journal of the American Veterinary Medical Association 172, 241–262.
| 621166PubMed |
| 621166PubMed |

Kenzig, AR, O’Meara, KM, Kremer, CJ, Jogan, KS, Jack, NE, and Cole, K (2009). Colostral, milk and serum immunoglobulin G concentrations in quarter horse mares and their foals. Journal of Equine Veterinary Science 29, 486–487.
Colostral, milk and serum immunoglobulin G concentrations in quarter horse mares and their foals.Crossref | GoogleScholarGoogle Scholar |

Klewitz, J, Struebing, C, Rohn, K, Goergens, A, Martinsson, G, Orgies, F, Probst, J, Hollinshead, F, Bollwein, H, and Sieme, H (2015). Effects of age, parity, and pregnancy abnormalities on foal birth weight and uterine blood flow in the mare. Theriogenology 83, 721–729.
Effects of age, parity, and pregnancy abnormalities on foal birth weight and uterine blood flow in the mare.Crossref | GoogleScholarGoogle Scholar | 25483867PubMed | 25483867PubMed |

Korkmaz, Ö, Emre, B, Polat, İM, Zonturlu, AK, PiR Yağci, İ, Pekcan, M, Gürler, Ş, Akkuş, T, and Çebi Şen, Ç (2020). The correlation between anti-Müllerian hormone concentrations and reproductive parameters in different age groups in purebred Arabian mares. Kafkas Üniversitesi Veteriner Fakültesi Dergisi 26, 53–57.
The correlation between anti-Müllerian hormone concentrations and reproductive parameters in different age groups in purebred Arabian mares.Crossref | GoogleScholarGoogle Scholar |

Köseman, A, and Özbeyaz, C (2009). Some phenotypic and genetic parameters of racing performance in Arabian horses. Ankara Üniversitesi Veteriner Fakültesi Dergisi 56, 219–224.
Some phenotypic and genetic parameters of racing performance in Arabian horses.Crossref | GoogleScholarGoogle Scholar |

Kuhl, J, Stock, KF, Wulf, M, and Aurich, C (2015). Maternal lineage of warmblood mares contributes to variation of gestation length and bias of foal sex ratio. PLoS One 10, e0139358.
Maternal lineage of warmblood mares contributes to variation of gestation length and bias of foal sex ratio.Crossref | GoogleScholarGoogle Scholar | 26436555PubMed | 26436555PubMed |

Lane, EA, Bijnen, MLJ, Osborne, M, More, SJ, Henderson, ISF, Duffy, P, and Crowe, MA (2016). Key factors affecting reproductive success of Thoroughbred mares and stallions on a commercial stud farm. Reproduction in Domestic Animals 51, 181–187.
Key factors affecting reproductive success of Thoroughbred mares and stallions on a commercial stud farm.Crossref | GoogleScholarGoogle Scholar | 26815482PubMed | 26815482PubMed |

Langlois, B, and Blouin, C (2004). Statistical analysis of some factors affecting the number of horse births in France. Reproduction Nutrition Development 44, 583–595.
Statistical analysis of some factors affecting the number of horse births in France.Crossref | GoogleScholarGoogle Scholar |

Langlois, B, and Blouin, C (2012). Genetic parameters for gestation length in French horse breeds. Livestock Science 146, 133–139.
Genetic parameters for gestation length in French horse breeds.Crossref | GoogleScholarGoogle Scholar |

Lawrence, LM, DiPietro, J, Ewert, K, Parrett, D, Moser, L, and Powell, D (1992). Changes in body weight and condition of gestating mares. Journal of Equine Veterinary Science 12, 355–358.
Changes in body weight and condition of gestating mares.Crossref | GoogleScholarGoogle Scholar |

LeBlanc, MM, Neuwirth, L, Asbury, AC, Tran, T, Mauragis, D, and Klapstein, E (1994). Scintigraphic measurement of uterine clearance in normal mares and mares with recurrent endometritis. Equine Veterinary Journal 26, 109–113.
Scintigraphic measurement of uterine clearance in normal mares and mares with recurrent endometritis.Crossref | GoogleScholarGoogle Scholar | 8575370PubMed | 8575370PubMed |

LeBlanc, MM, Neuwirth, L, Jones, L, Cage, C, and Mauragis, D (1998). Differences in uterine position of reproductively normal mares and those with delayed uterine clearance detected by scintigraphy. Theriogenology 50, 49–54.
Differences in uterine position of reproductively normal mares and those with delayed uterine clearance detected by scintigraphy.Crossref | GoogleScholarGoogle Scholar | 10734473PubMed | 10734473PubMed |

LeBlanc, MM, Tran, T, Baldwin, JL, and Pritchard, EL (1992). Factors that influence passive transfer of immunoglobulins in foals. Journal of the American Veterinary Medical Association 200, 179–183.
| 1559872PubMed |
| 1559872PubMed |

Liu, IKM, Lantz, KC, Schlafke, S, Bowers, JM, and Enders, AC (1990). Clinical observations of oviductal masses in the mare. Proceedings of the Annual Convention of the American Association of Equine Practitioners 36, 41–45.

Malinska, M, Havlicek, Z, Koru, E, and Rezac, P (2019). Animal and environmental factors associated with gestation length in the endangered Old Kladruber horse. Theriogenology 129, 116–120.
Animal and environmental factors associated with gestation length in the endangered Old Kladruber horse.Crossref | GoogleScholarGoogle Scholar | 30836245PubMed | 30836245PubMed |

Marinone, AI, Losinno, L, Fumuso, E, Rodríguez, EM, Redolatti, C, Cantatore, S, and Cuervo-Arango, J (2015). The effect of mare’s age on multiple ovulation rate, embryo recovery, post-transfer pregnancy rate, and interovulatory interval in a commercial embryo transfer program in Argentina. Animal Reproduction Science 158, 53–59.
The effect of mare’s age on multiple ovulation rate, embryo recovery, post-transfer pregnancy rate, and interovulatory interval in a commercial embryo transfer program in Argentina.Crossref | GoogleScholarGoogle Scholar | 25981675PubMed | 25981675PubMed |

Mata, F, Bourbon, J, Twigg-Flesner, A, and Greening, L (2013). Investigating follicle growth, uterine oedema and other factors affecting reproductive success in the Lusitano Mare. Revista Portuguesa de Zootecnia 2, 1–14.

McCue, PM, and Ferris, RA (2012). Parturition, dystocia and foal survival: a retrospective study of 1047 births. Equine Veterinary Journal 44, 22–25.
Parturition, dystocia and foal survival: a retrospective study of 1047 births.Crossref | GoogleScholarGoogle Scholar |

McCue, PM, Wall, JJ, Brink, ZA, and Seidel, GE (2009). 177 Live foal rate: effects of embryo transfer and donor mare age. Reproduction, Fertility and Development 22, 247.
177 Live foal rate: effects of embryo transfer and donor mare age.Crossref | GoogleScholarGoogle Scholar |

McDowell, KJ, Sharp, DC, Grubaugh, W, Thatcher, WW, and Wilcox, CJ (1988). Restricted conceptus mobility results in failure of pregnancy maintenance in mares. Biology of Reproduction 39, 340–348.
Restricted conceptus mobility results in failure of pregnancy maintenance in mares.Crossref | GoogleScholarGoogle Scholar | 3179385PubMed | 3179385PubMed |

McDowell, KJ, Powell, DG, and Baker, CB (1992). Effect of book size and age of mare and stallion on foaling rates in thoroughbred horses. Journal of Equine Veterinary Science 12, 364–367.
Effect of book size and age of mare and stallion on foaling rates in thoroughbred horses.Crossref | GoogleScholarGoogle Scholar |

Meirelles, MG, Veras, MM, Alonso, MA, de Fátima Guimarães, C, Nichi, M, and Fernandes, CB (2017). Influence of Maternal Age and Parity on Placental Structure and Foal Characteristics From Birth up to 2 Years of Age. Journal of Equine Veterinary Science 56, 68–79.
Influence of Maternal Age and Parity on Placental Structure and Foal Characteristics From Birth up to 2 Years of Age.Crossref | GoogleScholarGoogle Scholar |

Milojevic, M, Streten, M, Ayaşan, T, Zdralic, T, and Djermanovic, V (2020). Effects of age and sex of the foal on the gestation length of Thoroughbred mares. Kahramanmaraş Sütçü İmam Üniversitesi Tarım ve Doğa Dergisi 23, 1386–1392.
Effects of age and sex of the foal on the gestation length of Thoroughbred mares.Crossref | GoogleScholarGoogle Scholar |

Monniaux, D, Clément, F, Dalbiès-Tran, R, Estienne, A, Fabre, S, Mansanet, C, and Monget, P (2014). The ovarian reserve of primordial follicles and the dynamic reserve of antral growing follicles: what is the link? Biology of Reproduction 90, 85.
The ovarian reserve of primordial follicles and the dynamic reserve of antral growing follicles: what is the link?Crossref | GoogleScholarGoogle Scholar | 24599291PubMed | 24599291PubMed |

Morel, MCGD, Newcombe, JR, and Swindlehurst, JC (2005). The effect of age on multiple ovulation rates, multiple pregnancy rates and embryonic vesicle diameter in the mare. Theriogenology 63, 2482–2493.
The effect of age on multiple ovulation rates, multiple pregnancy rates and embryonic vesicle diameter in the mare.Crossref | GoogleScholarGoogle Scholar |

Morley, PS, and Townsend, HGG (1997). A survey of reproductive performance in Thoroughbred mares and morbidity, mortality and athletic potential of their foals. Equine Veterinary Journal 29, 290–297.
A survey of reproductive performance in Thoroughbred mares and morbidity, mortality and athletic potential of their foals.Crossref | GoogleScholarGoogle Scholar | 15338910PubMed | 15338910PubMed |

Morris, LHA, and Allen, WR (2002). Reproductive efficiency of intensively managed Thoroughbred mares in Newmarket. Equine Veterinary Journal 34, 51–60.
Reproductive efficiency of intensively managed Thoroughbred mares in Newmarket.Crossref | GoogleScholarGoogle Scholar |

Morris, DD, Meirs, DA, and Merryman, GS (1985). Passive transfer failure in horses: incidence and causative factors on a breeding farm. American Journal of Veterinary Research 46, 2294–2299.
| 4073639PubMed |
| 4073639PubMed |

Nambo, Y, Oikawa, M-A, Yoshihara, T, Kuwano, A, and Katayama, Y (1995). Age-related morphometrical changes of arteries of uterine wall in mares. Journal of Veterinary Medicine Series A 42, 383–387.
Age-related morphometrical changes of arteries of uterine wall in mares.Crossref | GoogleScholarGoogle Scholar | 7495170PubMed | 7495170PubMed |

Nath, LC, Anderson, GA, and McKinnon, AO (2010). Reproductive efficiency of Thoroughbred and Standardbred horses in north-east Victoria. Australian Veterinary Journal 88, 169–175.
Reproductive efficiency of Thoroughbred and Standardbred horses in north-east Victoria.Crossref | GoogleScholarGoogle Scholar | 20529022PubMed | 20529022PubMed |

Niekerk, V, and Gerneke, WH (1966). Persistence and parthenogentic cleavage of tubal ova in the mare. Onderstepoort Journal of Veterinary Research 31, 195–232.

Nishikawa Y (1959) ‘Studies on reproduction in horses. Singularity and artificial control in reproductive phenomena’. (Japan Racing Association: Tokyo, Japan)

Oikawa, M, Katayama, Y, Yoshihara, T, Kaneko, M, and Yoshikawa, T (1993). Microscopical characteristics of uterine wall arteries in barren aged mares. Journal of Comparative Pathology 108, 411–415.
Microscopical characteristics of uterine wall arteries in barren aged mares.Crossref | GoogleScholarGoogle Scholar | 8366209PubMed | 8366209PubMed |

Onuma, H, and Ohnami, Y (1975). Retention of tubal eggs in mares. Journal of Reproduction and Fertility. Supplement 23, 507–511.

Oriol, JG, Sharom, FJ, and Betteridge, KJ (1993). Developmentally regulated changes in the glycoproteins of the equine embryonic capsule. Reproduction 99, 653–664.
Developmentally regulated changes in the glycoproteins of the equine embryonic capsule.Crossref | GoogleScholarGoogle Scholar |

Ortis, HA, Foss, RR, McCue, PM, Bradecamp, EA, Ferris, RA, and Hendrickson, DA (2013). Laparoscopic application of PGE2 to the uterine tube surface enhances fertility in selected subfertile mares. Journal of Equine Veterinary Science 33, 896–900.
Laparoscopic application of PGE2 to the uterine tube surface enhances fertility in selected subfertile mares.Crossref | GoogleScholarGoogle Scholar |

Ousey, JC, Kölling, M, Newton, R, Wright, M, and Allen, WR (2012). Uterine haemodynamics in young and aged pregnant mares measured using doppler ultrasonography: uterine haemodynamics in mares. Equine Veterinary Journal 44, 15–21.
Uterine haemodynamics in young and aged pregnant mares measured using doppler ultrasonography: uterine haemodynamics in mares.Crossref | GoogleScholarGoogle Scholar |

Paksoy, Y, and Ünal, N (2019). Multivariate analysis of morphometry effect on race performance in Thoroughbred horses. Revista Brasileira de Zootecnia 48, e20180030.
Multivariate analysis of morphometry effect on race performance in Thoroughbred horses.Crossref | GoogleScholarGoogle Scholar |

Palmer, E, and Chavatte-Palmer, P (2020). Contribution of reproduction management and technologies to genetic progress in horse breeding. Journal of Equine Veterinary Science 89, 103016.
Contribution of reproduction management and technologies to genetic progress in horse breeding.Crossref | GoogleScholarGoogle Scholar | 32563446PubMed | 32563446PubMed |

Palmer, E, and Driancourt, MA (1983). Some interactions of season of foaling, photoperiod and ovarian activity in the equine. Livestock Production Science 10, 197–210.
Some interactions of season of foaling, photoperiod and ovarian activity in the equine.Crossref | GoogleScholarGoogle Scholar |

Palmer, E, Robles, M, Chavatte-Palmer, P, and Ricard, A (2018). Maternal effects on offspring performance in show jumping. Journal of Equine Veterinary Science 66, 221.
Maternal effects on offspring performance in show jumping.Crossref | GoogleScholarGoogle Scholar |

Panzani, D, Rota, A, Marmorini, P, Vannozzi, I, and Camillo, F (2014). Retrospective study of factors affecting multiple ovulations, embryo recovery, quality, and diameter in a commercial equine embryo transfer program. Theriogenology 82, 807–814.
Retrospective study of factors affecting multiple ovulations, embryo recovery, quality, and diameter in a commercial equine embryo transfer program.Crossref | GoogleScholarGoogle Scholar | 25085596PubMed | 25085596PubMed |

Panzani, D, Vannozzi, I, Marmorini, P, Rota, A, and Camillo, F (2016). Factors affecting recipients’ pregnancy, pregnancy loss, and foaling rates in a commercial equine embryo transfer program. Journal of Equine Veterinary Science 37, 17–23.
Factors affecting recipients’ pregnancy, pregnancy loss, and foaling rates in a commercial equine embryo transfer program.Crossref | GoogleScholarGoogle Scholar |

Pascoe, RR (1979). Observations on the length and angle of declination of the vulva and its relation to fertility in the mare. Journal of Reproduction and Fertility. Supplement 27, 299–305.

Pascoe, DR, Liu, IKM, Spensley, MS, and Hughes, JP (1985). Effect of endometrial pathology on the success of non-surgical embryo transfer. Equine Veterinary Journal 17, 108–110.
Effect of endometrial pathology on the success of non-surgical embryo transfer.Crossref | GoogleScholarGoogle Scholar |

Pérez-Marín, CC, Vizuete, G, and Galisteo, JJ (2017). Embryo recovery results in Hispano-Arabe horse and Spanish donkey breeds. Livestock Science 206, 76–81.
Embryo recovery results in Hispano-Arabe horse and Spanish donkey breeds.Crossref | GoogleScholarGoogle Scholar |

Physick-Sheard, PW (1995). Demographic analysis of the Canadian Standardbred broodmare herd. Preventive Veterinary Medicine 24, 285–299.
Demographic analysis of the Canadian Standardbred broodmare herd.Crossref | GoogleScholarGoogle Scholar |

Pikul, J, Wójtowski, J, Danków, R, Kuczynska, B, and Lojek, J (2008). Fat content and fatty acids profile of colostrum and milk of primitive Konik horses (Equus caballus gmelini Ant.) during six months of lactation. Journal of Dairy Research 75, 302–309.
Fat content and fatty acids profile of colostrum and milk of primitive Konik horses (Equus caballus gmelini Ant.) during six months of lactation.Crossref | GoogleScholarGoogle Scholar |

Pinto-Bravo, P, Ferreira-Dias, G, Rebordão, MR, Amaral, A, Fernandes, C, Cuello, C, Parrilla, I, Martínez, E, Roberto da Costa, RP, and Skarzynski, DJ (2018). Is mare endometrosis linked to oviduct fibrosis? Pferdeheilkunde 34, 43–46.
Is mare endometrosis linked to oviduct fibrosis?Crossref | GoogleScholarGoogle Scholar |

Platt, H (1973). Aetiological aspects of abortion in the Thoroughbred mare. Journal of Comparative Pathology 83, 199–205.
Aetiological aspects of abortion in the Thoroughbred mare.Crossref | GoogleScholarGoogle Scholar | 4796892PubMed | 4796892PubMed |

Pool-Anderson, K, Raub, RH, and Warren, JA (1994). Maternal influences on growth and development of full-sibling foals. Journal of Animal Science 72, 1661–1666.
Maternal influences on growth and development of full-sibling foals.Crossref | GoogleScholarGoogle Scholar | 7928744PubMed | 7928744PubMed |

Popova, M (2020). Breeding age of mares from the haflinger breed, duration of gestational length and the influence of some paratype factors on it. Scientific Papers: Series D, Animal Science 63, 8.

Provencher, R, Threlfall, WR, Murdick, PW, and Wearly, WK (1988). Retained fetal membranes in the mare: a retrospective study. Canadian Veterinary Journal 29, 903–910.

Raidal, SL (1996). The incidence and consequences of failure of passive transfer of immunity on a Thoroughbred breeding farm. Australian Veterinary Journal 73, 201–206.
The incidence and consequences of failure of passive transfer of immunity on a Thoroughbred breeding farm.Crossref | GoogleScholarGoogle Scholar | 8893988PubMed | 8893988PubMed |

Rambags, BPB, van Boxtel, DCJ, Tharasanit, T, Lenstra, JA, Colenbrander, B, and Stout, TAE (2014). Advancing maternal age predisposes to mitochondrial damage and loss during maturation of equine oocytes in vitro. Theriogenology 81, 959–965.
Advancing maternal age predisposes to mitochondrial damage and loss during maturation of equine oocytes in vitro.Crossref | GoogleScholarGoogle Scholar |

Ramin, AG, Bayrami, M, Ramin, S, and Kalantry, L (2018). Relationships among urea, protein and macro-mineral concentrations in colostrums and whole milk in lactating mares. International Journal of Research in Applied and Basic Medical Sciences 4, 15–22.

Reilas, T, Virtala, AM, and Katila, T (2014). Gestation lengths of Finnhorse and Standardbred mares in Finland: effects of breeding season and reproductive status. Pferdeheilkunde 30, 45–51.
Gestation lengths of Finnhorse and Standardbred mares in Finland: effects of breeding season and reproductive status.Crossref | GoogleScholarGoogle Scholar |

Requena, F, Campos, MJAPM, Martínez Marín, AL, Camacho, R, Giráldez-Pérez, RM, and Agüera, EI (2021). Assessment of age effects on ovarian hemodynamics using doppler ultrasound and progesterone concentrations in cycling Spanish Purebred mares. Animals 11, 2339.
Assessment of age effects on ovarian hemodynamics using doppler ultrasound and progesterone concentrations in cycling Spanish Purebred mares.Crossref | GoogleScholarGoogle Scholar | 34438797PubMed | 34438797PubMed |

Rho, JR, Srygley, RB, and Choe, JC (2009). Age of the Jeju pony (Equus caballus) at first reproduction: potential costs for foals and mothers that first reproduce early in life. Journal of Ethology 27, 483–488.
Age of the Jeju pony (Equus caballus) at first reproduction: potential costs for foals and mothers that first reproduce early in life.Crossref | GoogleScholarGoogle Scholar |

Ricketts, SW (1975). Endometrial biopsy as a guide to diagnosis of endometrial pathology in the mare. Journal of Reproduction and Fertility. Supplement 23, 341–345.

Ricketts, SW, and Alonso, S (1991). The effect of age and parity on the development of equine chronic endometrial disease. Equine Veterinary Journal 23, 189–192.
The effect of age and parity on the development of equine chronic endometrial disease.Crossref | GoogleScholarGoogle Scholar | 1884699PubMed | 1884699PubMed |

Rioja, E, Cernicchiaro, N, Costa, MC, and Valverde, A (2012). Perioperative risk factors for mortality and length of hospitalization in mares with dystocia undergoing general anesthesia: a retrospective study. Canadian Veterinary Journal 53, 502–510.

Rizzo, M, Ducheyne, KD, Deelen, C, Beitsma, M, Cristarella, S, Quartuccio, M, Stout, TAE, and Ruijter-Villani, M (2019). Advanced mare age impairs the ability of in vitro-matured oocytes to correctly align chromosomes on the metaphase plate. Equine Veterinary Journal 51, 252–257.
Advanced mare age impairs the ability of in vitro-matured oocytes to correctly align chromosomes on the metaphase plate.Crossref | GoogleScholarGoogle Scholar | 30025174PubMed | 30025174PubMed |

Rizzo, M, du Preez, N, Ducheyne, KD, Deelen, C, Beitsma, MM, Stout, TAE, and de Ruijter-Villani, M (2020). The horse as a natural model to study reproductive aging-induced aneuploidy and weakened centromeric cohesion in oocytes. Aging 12, 22220–22232.
The horse as a natural model to study reproductive aging-induced aneuploidy and weakened centromeric cohesion in oocytes.Crossref | GoogleScholarGoogle Scholar | 33139583PubMed | 33139583PubMed |

Rizzo, M, Stout, TAE, Cristarella, S, Quartuccio, M, Kops, GJPL, and De Ruijter-Villani, M (2021). Compromised MPS1 activity induces multipolar spindle formation in oocytes from aged mares: establishing the horse as a natural animal model to study age-induced oocyte meiotic spindle instability. Frontiers in Cell and Developmental Biology 9, 657366.
Compromised MPS1 activity induces multipolar spindle formation in oocytes from aged mares: establishing the horse as a natural animal model to study age-induced oocyte meiotic spindle instability.Crossref | GoogleScholarGoogle Scholar | 34026756PubMed | 34026756PubMed |

Robles, M, Dubois, C, Gautier, C, Dahirel, M, Guenon, I, Bouraima-Lelong, H, Viguié, C, Wimel, L, Couturier-Tarrade, A, and Chavatte-Palmer, P (2018). Maternal parity affects placental development, growth and metabolism of foals until 1 year and a half. Theriogenology 108, 321–330.
Maternal parity affects placental development, growth and metabolism of foals until 1 year and a half.Crossref | GoogleScholarGoogle Scholar | 29288976PubMed | 29288976PubMed |

Robles, M, Couturier-Tarrade, A, Derisoud, E, Geeverding, A, Dubois, C, Dahirel, M, Aioun, J, Prezelin, A, Calvez, J, Richard, C, Wimel, L, and Chavatte-Palmer, P (2019). Effects of dietary arginine supplementation in pregnant mares on maternal metabolism, placental structure and function and foal growth. Scientific Reports 9, 6461.
Effects of dietary arginine supplementation in pregnant mares on maternal metabolism, placental structure and function and foal growth.Crossref | GoogleScholarGoogle Scholar | 31015538PubMed | 31015538PubMed |

Rodrigues, JA, Gonçalves, AR, Antunes, L, Bettencourt, EV, and Gama, LT (2020). Genetic and environmental factors influencing gestation length in Lusitano horses. Journal of Equine Veterinary Science 84, 102850.
Genetic and environmental factors influencing gestation length in Lusitano horses.Crossref | GoogleScholarGoogle Scholar | 31864463PubMed | 31864463PubMed |

Ruggeri, E, DeLuca, KF, Galli, C, Lazzari, G, DeLuca, JG, and Carnevale, EM (2015). Cytoskeletal alterations associated with donor age and culture interval for equine oocytes and potential zygotes that failed to cleave after intracytoplasmic sperm injection. Reproduction, Fertility and Development 27, 944.
Cytoskeletal alterations associated with donor age and culture interval for equine oocytes and potential zygotes that failed to cleave after intracytoplasmic sperm injection.Crossref | GoogleScholarGoogle Scholar |

Sabbagh, M, Danvy, S, and Ricard, A (2014). Genetic and environmental analysis of dystocia and stillbirths in draft horses. Animal 8, 184–191.
Genetic and environmental analysis of dystocia and stillbirths in draft horses.Crossref | GoogleScholarGoogle Scholar | 24433956PubMed | 24433956PubMed |

Samper, JC, Vidament, M, Katila, T, Newcombe, JR, Estrada, A, and Sargeant, J (2002). Analysis of some factors associated with pregnancy rates of frozen semen: a multi-center study. Theriogenology 58, 647–650.
Analysis of some factors associated with pregnancy rates of frozen semen: a multi-center study.Crossref | GoogleScholarGoogle Scholar |

Satué, K, Felipe, M, Mota, J, and Muñoz, A (2011). Gestational length in Carthusian broodmares: effects of breeding season, foal gender, age of mare, year of parturition, parity and sire. Polish Journal of Veterinary Sciences 14, 173–180.
Gestational length in Carthusian broodmares: effects of breeding season, foal gender, age of mare, year of parturition, parity and sire.Crossref | GoogleScholarGoogle Scholar | 21721399PubMed | 21721399PubMed |

Schürmann, C, Loose, M, Failing, K, and Wehrend, A (2019). Retained placenta in mares-an analysis of 121 cases. Tierarztliche Praxis Ausgabe G: Grosstiere – Nutztiere 47, 373–379.

Scoggin, CF (2015). Not just a number: effect of age on fertility, pregnancy and offspring vigour in thoroughbred brood-mares. Reproduction, Fertility and Development 27, 872–879.
Not just a number: effect of age on fertility, pregnancy and offspring vigour in thoroughbred brood-mares.Crossref | GoogleScholarGoogle Scholar |

Sessions-Bresnahan, DR, and Carnevale, EM (2015). Age-associated changes in granulosa cell transcript abundance in equine preovulatory follicles. Reproduction, Fertility and Development 27, 906–913.
Age-associated changes in granulosa cell transcript abundance in equine preovulatory follicles.Crossref | GoogleScholarGoogle Scholar |

Sevinga, M, Barkema, HW, Stryhn, H, and Hesselink, JW (2004). Retained placenta in Friesian mares: incidence, and potential risk factors with special emphasis on gestational length. Theriogenology 61, 851–859.
Retained placenta in Friesian mares: incidence, and potential risk factors with special emphasis on gestational length.Crossref | GoogleScholarGoogle Scholar | 14757471PubMed | 14757471PubMed |

Sharma, S, Dhaliwal, GS, and Dadarwal, D (2010). Reproductive efficiency of Thoroughbred mares under Indian subtropical conditions: a retrospective survey over 7 years. Animal Reproduction Science 117, 241–248.
Reproductive efficiency of Thoroughbred mares under Indian subtropical conditions: a retrospective survey over 7 years.Crossref | GoogleScholarGoogle Scholar | 19505777PubMed | 19505777PubMed |

Siemieniuch, MJ, Gajos, K, Kozdrowski, R, and Nowak, M (2017). Advanced age in mares affects endometrial secretion of arachidonic acid metabolites during equine subclinical endometritis. Theriogenology 103, 191–196.
Advanced age in mares affects endometrial secretion of arachidonic acid metabolites during equine subclinical endometritis.Crossref | GoogleScholarGoogle Scholar | 28803166PubMed | 28803166PubMed |

Søndergaard, E, and Jago, J (2010). The effect of early handling of foals on their reaction to handling, humans and novelty, and the foal–mare relationship. Applied Animal Behaviour Science 123, 93–100.
The effect of early handling of foals on their reaction to handling, humans and novelty, and the foal–mare relationship.Crossref | GoogleScholarGoogle Scholar |

Souza, JRM, Gonçalves, PBD, Bertolin, K, Ferreira, R, Ribeiro, ASS, Ribeiro, DB, Rechsteiner, SMDEF, Araújo, RR, Pimentel, CA, and Pimentel, AMH (2020). Age-dependent effect of foal heat breeding on pregnancy and embryo mortality rates in Thoroughbred mares. Journal of Equine Veterinary Science 90, 102982.
Age-dependent effect of foal heat breeding on pregnancy and embryo mortality rates in Thoroughbred mares.Crossref | GoogleScholarGoogle Scholar | 32534765PubMed | 32534765PubMed |

Spacek, SG, and Carnevale, EM (2018). Impact of equine and bovine oocyte maturation in follicular fluid from young and Old Mares on embryo production in vitro. Journal of Equine Veterinary Science 68, 94–100.
Impact of equine and bovine oocyte maturation in follicular fluid from young and Old Mares on embryo production in vitro.Crossref | GoogleScholarGoogle Scholar | 31256896PubMed | 31256896PubMed |

Squires, E, Barbacini, S, Matthews, P, Byers, W, Schwenzer, K, Steiner, J, and Loomis, P (2006). Retrospective study of factors affecting fertility of fresh, cooled and frozen semen. Equine Veterinary Education 18, 96–99.
Retrospective study of factors affecting fertility of fresh, cooled and frozen semen.Crossref | GoogleScholarGoogle Scholar |

Stabenfeldt, GH, Hughes, JP, and Evans, JW (1972). Ovarian activity during the estrous cycle of the mare. Endocrinology 90, 1379–1384.
Ovarian activity during the estrous cycle of the mare.Crossref | GoogleScholarGoogle Scholar | 5062475PubMed | 5062475PubMed |

Talluri, TR, Arangasamy, A, Singh, J, Ravi, SK, Pal, Y, Legha, RA, Alpha Raj, M, Chopra, A, Singh, RK, and Tripathi, BN (2016). Factors affecting length of gestation in artificially inseminated Marwari mares of India. Asian Pacific Journal of Reproduction 5, 481–489.
Factors affecting length of gestation in artificially inseminated Marwari mares of India.Crossref | GoogleScholarGoogle Scholar |

Tannus, RJ, and Thun, R (1995). Influence of endometrial cysts on conception rate of mares. Journal of Veterinary Medicine Series A 42, 275–283.
Influence of endometrial cysts on conception rate of mares.Crossref | GoogleScholarGoogle Scholar | 7495166PubMed | 7495166PubMed |

Troedsson, MH, deMoraes, MJ, and Liu, IK (1993). Correlations between histologic endometrial lesions in mares and clinical response to intrauterine exposure with Streptococcus zooepidemicus. American Journal of Veterinary Research 54, 570–572.
| 8484576PubMed |
| 8484576PubMed |

Trottier NL, Stamper T, Moore J, Liesman J, Nielsen BD (2006) A weigh-suckle-weigh approach for estimating milk yield in the Arabian mare. In ‘Proceedings of the Third European Workshop on Equine Nutrition Campobasso, 20–22 June 2006, Italy’. pp. 163–165. EAAP PUBLICATION (120, 2006-06-01). (EAAP: Roma, Italy)

Tunón, A-M, Rodriguez-Martinez, H, Haglund, A, Albihn, A, Magnusson, U, and Einarsson, S (1995). Ultrastructure of the secretory endometrium during oestrus in young maiden and foaled mares. Equine Veterinary Journal 27, 382–388.
Ultrastructure of the secretory endometrium during oestrus in young maiden and foaled mares.Crossref | GoogleScholarGoogle Scholar | 8654354PubMed | 8654354PubMed |

Tunón, A-M, Rodriguez-Martinez, H, Hultén, C, Nummijarvi, A, and Magnusson, U (1998). Concentrations of total protein, albumin and immunoglobulins in undiluted uterine fluid of gynecologically healthy mares. Theriogenology 50, 821–831.
Concentrations of total protein, albumin and immunoglobulins in undiluted uterine fluid of gynecologically healthy mares.Crossref | GoogleScholarGoogle Scholar | 10734455PubMed | 10734455PubMed |

Uliani, RC, Ramires Neto, C, Dell’Aqua, JA, Pessoa, MA, Camargo, AL, Alvarenga, R, and Alvarenga, MA (2010). Effect of mare breed and age on embryo transfer efficiency. Animal Reproduction Science 121S, 303–304.
Effect of mare breed and age on embryo transfer efficiency.Crossref | GoogleScholarGoogle Scholar |

Uliani, RC, Conley, AJ, Corbin, CJ, Friso, AM, Maciel, LFS, and Alvarenga, MA (2019). Anti-Müllerian hormone and ovarian aging in mares. Journal of Endocrinology 240, 147–156.
Anti-Müllerian hormone and ovarian aging in mares.Crossref | GoogleScholarGoogle Scholar |

van der Reest, J, Nardini Cecchino, G, Haigis, MC, and Kordowitzki, P (2021). Mitochondria: Their relevance during oocyte ageing. Ageing Research Reviews 70, 101378.
Mitochondria: Their relevance during oocyte ageing.Crossref | GoogleScholarGoogle Scholar | 34091076PubMed | 34091076PubMed |

Valera, M, Blesa, F, Santos, RD, and Molina, A (2006). Genetic study of gestation length in andalusian and arabian mares. Animal Reproduction Science 95, 75–96.
Genetic study of gestation length in andalusian and arabian mares.Crossref | GoogleScholarGoogle Scholar | 16271285PubMed | 16271285PubMed |

Vanderwall, DK, Woods, GL, Freeman, DA, Weber, JA, Rock, RW, and Tester, DF (1993). Ovarian follicles, ovulations and progesterone concentrations in aged versus young mares. Theriogenology 40, 21–32.
Ovarian follicles, ovulations and progesterone concentrations in aged versus young mares.Crossref | GoogleScholarGoogle Scholar | 16727291PubMed | 16727291PubMed |

Verheyen, KLP, Price, JS, and Wood, JLN (2007). Fracture rate in Thoroughbred racehorses is affected by dam age and parity. The Veterinary Journal 174, 295–301.
Fracture rate in Thoroughbred racehorses is affected by dam age and parity.Crossref | GoogleScholarGoogle Scholar |

Vidament, M, Dupere, AM, Julienne, P, Evain, A, Noue, P, and Palmer, E (1997). Equine frozen semen: freezability and fertility field results. Theriogenology 48, 907–917.
Equine frozen semen: freezability and fertility field results.Crossref | GoogleScholarGoogle Scholar | 16728182PubMed | 16728182PubMed |

Visser, JA, and Themmen, APN (2005). Anti-Müllerian hormone and folliculogenesis. Molecular and Cellular Endocrinology 234, 81–86.
Anti-Müllerian hormone and folliculogenesis.Crossref | GoogleScholarGoogle Scholar | 15836956PubMed | 15836956PubMed |

Vogelsang, SG, and Vogelsang, MM (1989). Influence of donor parity and age on the success of commercial equine embryo transfer. Equine Veterinary Journal 21, 71–72.
Influence of donor parity and age on the success of commercial equine embryo transfer.Crossref | GoogleScholarGoogle Scholar |

Waelchli, RO (1990). Endometrial biopsy in mares under nonuniform breeding management conditions: Prognostic value and relationship with age. Canadian Veterinary Journal 31, 379–384.

Watkins, A, Lucas, ES, and Fleming, T (2010). Impact of the periconceptional environment on the programming of adult disease. Journal of Developmental Origins of Health and Disease 1, 87–95.
Impact of the periconceptional environment on the programming of adult disease.Crossref | GoogleScholarGoogle Scholar | 25143062PubMed | 25143062PubMed |

Weber, JA, Freeman, DA, Vanderwall, DK, and Woods, GL (1991). Prostaglandin E2 secretion by oviductal transport-stage equine embryos. Biology of Reproduction 45, 540–543.
Prostaglandin E2 secretion by oviductal transport-stage equine embryos.Crossref | GoogleScholarGoogle Scholar | 1751627PubMed | 1751627PubMed |

Weber, JA, Woods, GL, Freeman, DA, and Vanderwall, DK (1992). Prostaglandin E2-specific binding to the equine oviduct. Prostaglandins 43, 61–65.
Prostaglandin E2-specific binding to the equine oviduct.Crossref | GoogleScholarGoogle Scholar | 1546174PubMed | 1546174PubMed |

Weber, JA, Woods, GL, and Lichtenwalner, AB (1995). Relaxatory effect of Prostaglandin E2 on circular smooth muscle isolated from the equine oviductal isthmus. Biology of Reproduction 52, 125–130.
Relaxatory effect of Prostaglandin E2 on circular smooth muscle isolated from the equine oviductal isthmus.Crossref | GoogleScholarGoogle Scholar |

Wesson, JA, and Ginther, OJ (1981). Influence of season and age on reproductive activity in pony mares on the basis of a slaughterhouse survey. Journal of Animal Science 52, 119–129.
Influence of season and age on reproductive activity in pony mares on the basis of a slaughterhouse survey.Crossref | GoogleScholarGoogle Scholar | 7195392PubMed | 7195392PubMed |

Willmann, C, Schuler, G, Hoffmann, B, Parvizi, N, and Aurich, C (2011). Effects of age and altrenogest treatment on conceptus development and secretion of LH, progesterone and eCG in early-pregnant mares. Theriogenology 75, 421–428.
Effects of age and altrenogest treatment on conceptus development and secretion of LH, progesterone and eCG in early-pregnant mares.Crossref | GoogleScholarGoogle Scholar | 21144568PubMed | 21144568PubMed |

Wilsher, S, and Allen, WR (2003). The effects of maternal age and parity on placental and fetal development in the mare. Equine Veterinary Journal 35, 476–483.
The effects of maternal age and parity on placental and fetal development in the mare.Crossref | GoogleScholarGoogle Scholar | 12875326PubMed | 12875326PubMed |

Wilsher, S, and Allen, WR (2011). Factors influencing equine chorionic gonadotrophin production in the mare: Equine chorionic gonadotrophin production. Equine Veterinary Journal 43, 430–438.
Factors influencing equine chorionic gonadotrophin production in the mare: Equine chorionic gonadotrophin production.Crossref | GoogleScholarGoogle Scholar | 21496079PubMed | 21496079PubMed |

Wilsher, S, Allen, WR, and Wood, JLN (2006). Factors associated with failure of Thoroughbred horses to train and race. Equine Veterinary Journal 38, 113–118.
Factors associated with failure of Thoroughbred horses to train and race.Crossref | GoogleScholarGoogle Scholar | 16536379PubMed | 16536379PubMed |

Winter, GHZ, Rubin, MIB, De La Corte, FD, and Silva, CAM (2007). Gestational length and first postpartum ovulation of criollo mares on a stud farm in southern Brazil. Journal of Equine Veterinary Science 27, 531–534.
Gestational length and first postpartum ovulation of criollo mares on a stud farm in southern Brazil.Crossref | GoogleScholarGoogle Scholar |

Woods, GL, Baker, CB, Hillman, RB, and Schlafer, DH (1985). Recent studies relating to early embryonic death in the mare. Equine Veterinary Journal 17, 104–107.
Recent studies relating to early embryonic death in the mare.Crossref | GoogleScholarGoogle Scholar |

Woods, GL, Baker, CB, Baldwin, JL, Ball, BA, Bilinski, J, Cooper, WL, Ley, WB, Mank, EC, and Erb, HN (1987). Early pregnancy loss in brood mares. Journal of Reproduction and Fertility. Supplement 35, 455–459.
| 3479600PubMed |
| 3479600PubMed |

Woodward, EM, Christoffersen, M, Campos, J, Squires, EL, and Troedsson, MHT (2012). Susceptibility to persistent breeding-induced endometritis in the mare: Relationship to endometrial biopsy score and age, and variations between seasons. Theriogenology 78, 495–501.
Susceptibility to persistent breeding-induced endometritis in the mare: Relationship to endometrial biopsy score and age, and variations between seasons.Crossref | GoogleScholarGoogle Scholar | 22494681PubMed |

Zent, WW, Liu, IKM, and Spirito, MA (1993). Oviduct flushing as a treatment for infertility in the mare. Equine Veterinary Journal 15, 47–48.
Oviduct flushing as a treatment for infertility in the mare.Crossref | GoogleScholarGoogle Scholar |