肉牛定时输精程序的研究进展
|
摘要
定时输精(TAI)技术作为家畜繁殖技术的重大突破和革新,综合了同期发情和人工授精技术,不仅解决了在生产实践中发情鉴定难、配种受胎率较低的问题,同时也明显提高了生产效率。TAI技术的应用有助于促进肉牛良种产业化和提高经济效益。本文综述了国内外肉牛TAI技术的应用现状并对各程序进行比较,以期为肉牛繁殖新技术的研究和应用提供参考依据。
Timed artificial insemination(TAI), as a major breakthrough and innovation in livestock breeding technology,combines estrus synchronization and artificial insemination(AI) technology. TAI solves the problem of difficulty in estrus identification as the low fertility rate and production efficiency significantly improved. The application of TAI can promote the industrialization of beef cattle and improve economic efficiency. This paper reviewed the application status of TAI technology in beef cattle and compared the different procedures, in order to provide references for the research and application of the breeding in beef cattle.
Timed artificial insemination(TAI), as a major breakthrough and innovation in livestock breeding technology,combines estrus synchronization and artificial insemination(AI) technology. TAI solves the problem of difficulty in estrus identification as the low fertility rate and production efficiency significantly improved. The application of TAI can promote the industrialization of beef cattle and improve economic efficiency. This paper reviewed the application status of TAI technology in beef cattle and compared the different procedures, in order to provide references for the research and application of the breeding in beef cattle.
引文
[1]曹兵海,张越杰,李俊雅,等.2017年肉牛产业发展情况、未来发展趋势及建议[J].中国畜牧杂志,2018,54(3):138-144.
[2]Colazo M G,Mapletoft R J.A review of current timed-AI(TAI)programs for beef and dairy cattle[J].Can Vet,2014,55(8):772-780.
[3]单琼星.定时输精技术在牛品种改良中的应用效果[J].兽医导刊,2017(14):222.
[4]徐少付,李华龙,黄培美,等.定时输精技术在舍饲肉牛的应用试验[J].中国牛业科学,2017,43(3):27-28.
[5]冉光富,刘祖文,许艳梅,等.肉牛定时输精技术的应用及前景[J].农村实用技术,2018(3):43-44.
[6]赵红霞,张越杰.中国肉牛养殖技术效率及其影响因素分析[J].中国畜牧杂志,2017,53(4):136-143.
[7]Donadeu F X,Schauer S N,Sontakke S D.Involvement of miRNAs in ovarian follicular and luteal development[J].JEndocrinol,2012,215(3):323.
[8]Nowicki A,Barański W,Baryczka A,et al.OvSynch protocol and its modif ications in the reproduction management of dairy cattle herds-an update[J].J Vet Res,2017,61(3):329-336.
[9]赵明礼.同期发情及同期排卵-定时输精技术对奶牛繁殖效率的影响[D].北京:中国农业科学院,2016.
[10]Brusveen D J,Cunha A P,Silva C D,et al.Altering the time of the second gonadotropin-releasing hormone injection and artificial insemination(AI)during Ovsynch affects pregnancies per AI in lactating dairy cows[J].J Dairy Sci,2008,91(3):1044-1052.
[11]Muth-Spurlock A M,Poole D H,Whisnant C S.Comparison of pregnancy rates in beef cattle after a fixed-time AI with once-or twiceused controlled internal drug release devices[J].Theriogenology,2016,85(3):447-451.
[12]胡雄责,燕海峰,龚泽修,等.不同定时输精技术在肉牛同期发情中的应用效果研究[J].黑龙江畜牧兽医,2010(7):54-56.
[13]屈虎虎,武致存.提高肉牛冻精配种受胎率关键技术[J].畜牧兽医杂志,2015,34(5):99.
[14]Mialot J P,Constant F,Dezaux P,et al.Estrus synchronization in beef cows:comparison between GnRH+PGF2α+GnRH and PRID+PGF2α+ECG[J].Theriogenology,2003,60(2):319-330.
[15]Pursley J R,Mee M O,Wiltbank M C.Synchronization of ovulation in dairy cows using PGF2alpha and GnRH[J].Theriogenology,1995,44(7):915-923.
[16]Bridges G A,Helser L A,GrumD E,et al.Decreasing the interval between GnRH and PGF2αfrom 7 to 5 days and lengthening proestrus increases timed AI pregnancy rates in beef cows[J].Theriogenology,2008,69:843.
[17]Vasconcelos J L,Silcox R W,Rosa G J,et al.Synchronization rate,size of the ovulatory follicle,and pregnancy rate after synchronization of ovulation beginning on different days of the estrous cycle in lactating dairy cows[J].Theriogenology,1999,52(6):1067-1078.
[18]Dejarnette J M,Marshall C E.Effects of pre-synchronization using combinations PGF(2alpha)and(or)GnRH on pregnancy rates of Ovsynch-and Cosynch-treated lactating Holstein cows[J].Anim Reprod Sci,2003,77(1-2):51-60.
[19]Dadarwal D,Mapletoft R J,Adams G P,et al.Effect of progesterone concentration and duration of proestrus on fertility in beef cattle after fixed-time artificial insemination[J].Theriogenology,2013,79(5):859-866.
[20]Stevenson J S,Hill S L,Bridges G A,et al.Progesterone status,parity,body condition,and days postpartum before estrus or ovulation synchronization in suckled beef cattle inf luence artificial insemination pregnancy outcomes[J].J Anim Sci,2015,93(5):2111-2123.
[21]Sales J N,Carvalho J B,Crepaldi G A,et al.Effect of circulating progesterone concentration during synchronization for fixed-time artificial insemination on ovulation and fertility in Bos indicus(Nelore)beef cows[J].Theriogenology,2015,83(6):1093-1100.
[22]Andringa M F,Van Eerdenburg F J,Fernández E,et al.Comparison between two progesterone sources and two oestradiol formulations in a Heatsynch protocol for postpartum cycling dairy cows in pasture[J].J Vet Sci,2013,14(2):161-166.
[23]Whittier W D,Currin J F,Schramm H,et al.Fertility in Angus cross beef cows following 5-day CO-Synch+CIDR or 7-day CO-Synch+CIDR estrus synchronization and timed artificial insemination[J].Theriogenology,2013,80(9):963-969.
[24]Kasimanickam R,Asay M,Firth P,et al.Artificial insemination at 56 h after intravaginal progesterone device rem-oval improved AI pregnancy rate in beef heifers synchronized with five-day CO-Synch+controlled internal drug release(CIDR)protocol[J].Theriogenology,2012,77(8):1624-1631.
[25]Pfeifer L F M,Leonardi C E P,Castro N A,et al.The use of PGF2αas ovulatory stimulus for timed artificial insemination in cattle[J].Theriogenology,2014,81(5):689-695.
[26]Burns M G,Buttrey B S,Dobbins C A,et al.Evaluation of human chorionic gonadotropin as a replacement for gonadotropinreleasing hormone in ovulation-synchronization protocols before fixed timed artificial insemination in beef cattle[J].J Anim Sci,2008,86(10):2539.
[27]Keskin A,Yilmazbas-Mecitoglu G,Gumen A,et al.Effect of hCGvs GnRH at the beginning of the Ovsynch on first ovulation and conception rates in cyclic lactating dairy cows[J].Theriogenology,2010,74(4):602.
[28]Giles R L,Ahola J K,Whittier J C,et al.Administration of a GnRH analog on day 9 of a 14-day controlled internal drug release insert with timed artificial insemination in lactating beef cows[J].J Anim Sci,2013,91(4):1866-1873.
[29]SáFilho M F,Marques M O,Girotto R,et al.Resynchr-onization with unknown pregnancy status using progestin-based timed artificial insemination protocol in beef cattle[J].Theriogenology,2014,81(2):284-290.
[30]Pancarci S M,Jordan E R,Risco C A,et al.Use of estradiol cypionate in a presynchronized timed artificial insemination program for lactating dair y cattle[J].J Dair y Sci,2002,85(1):122-131.
[31]Yusuf M,Nakao T,Yoshida C,et al.Comparison in effect of Heatsynch with heat detection aids and CIDR-Heatsynch in dairy heifers[J].Reprod Domest Anim,2010,45(3):500-504.
[32]Karuppanasamy K,Sharma R K,Phulia S K,et al.Ovulatory and fertility response using modified Heatsynch and Ovsynch protocols in the anovular Murrah buffalo(Bubalus bubalis)[J].Theriogenology,2017,95:83.
[2]Colazo M G,Mapletoft R J.A review of current timed-AI(TAI)programs for beef and dairy cattle[J].Can Vet,2014,55(8):772-780.
[3]单琼星.定时输精技术在牛品种改良中的应用效果[J].兽医导刊,2017(14):222.
[4]徐少付,李华龙,黄培美,等.定时输精技术在舍饲肉牛的应用试验[J].中国牛业科学,2017,43(3):27-28.
[5]冉光富,刘祖文,许艳梅,等.肉牛定时输精技术的应用及前景[J].农村实用技术,2018(3):43-44.
[6]赵红霞,张越杰.中国肉牛养殖技术效率及其影响因素分析[J].中国畜牧杂志,2017,53(4):136-143.
[7]Donadeu F X,Schauer S N,Sontakke S D.Involvement of miRNAs in ovarian follicular and luteal development[J].JEndocrinol,2012,215(3):323.
[8]Nowicki A,Barański W,Baryczka A,et al.OvSynch protocol and its modif ications in the reproduction management of dairy cattle herds-an update[J].J Vet Res,2017,61(3):329-336.
[9]赵明礼.同期发情及同期排卵-定时输精技术对奶牛繁殖效率的影响[D].北京:中国农业科学院,2016.
[10]Brusveen D J,Cunha A P,Silva C D,et al.Altering the time of the second gonadotropin-releasing hormone injection and artificial insemination(AI)during Ovsynch affects pregnancies per AI in lactating dairy cows[J].J Dairy Sci,2008,91(3):1044-1052.
[11]Muth-Spurlock A M,Poole D H,Whisnant C S.Comparison of pregnancy rates in beef cattle after a fixed-time AI with once-or twiceused controlled internal drug release devices[J].Theriogenology,2016,85(3):447-451.
[12]胡雄责,燕海峰,龚泽修,等.不同定时输精技术在肉牛同期发情中的应用效果研究[J].黑龙江畜牧兽医,2010(7):54-56.
[13]屈虎虎,武致存.提高肉牛冻精配种受胎率关键技术[J].畜牧兽医杂志,2015,34(5):99.
[14]Mialot J P,Constant F,Dezaux P,et al.Estrus synchronization in beef cows:comparison between GnRH+PGF2α+GnRH and PRID+PGF2α+ECG[J].Theriogenology,2003,60(2):319-330.
[15]Pursley J R,Mee M O,Wiltbank M C.Synchronization of ovulation in dairy cows using PGF2alpha and GnRH[J].Theriogenology,1995,44(7):915-923.
[16]Bridges G A,Helser L A,GrumD E,et al.Decreasing the interval between GnRH and PGF2αfrom 7 to 5 days and lengthening proestrus increases timed AI pregnancy rates in beef cows[J].Theriogenology,2008,69:843.
[17]Vasconcelos J L,Silcox R W,Rosa G J,et al.Synchronization rate,size of the ovulatory follicle,and pregnancy rate after synchronization of ovulation beginning on different days of the estrous cycle in lactating dairy cows[J].Theriogenology,1999,52(6):1067-1078.
[18]Dejarnette J M,Marshall C E.Effects of pre-synchronization using combinations PGF(2alpha)and(or)GnRH on pregnancy rates of Ovsynch-and Cosynch-treated lactating Holstein cows[J].Anim Reprod Sci,2003,77(1-2):51-60.
[19]Dadarwal D,Mapletoft R J,Adams G P,et al.Effect of progesterone concentration and duration of proestrus on fertility in beef cattle after fixed-time artificial insemination[J].Theriogenology,2013,79(5):859-866.
[20]Stevenson J S,Hill S L,Bridges G A,et al.Progesterone status,parity,body condition,and days postpartum before estrus or ovulation synchronization in suckled beef cattle inf luence artificial insemination pregnancy outcomes[J].J Anim Sci,2015,93(5):2111-2123.
[21]Sales J N,Carvalho J B,Crepaldi G A,et al.Effect of circulating progesterone concentration during synchronization for fixed-time artificial insemination on ovulation and fertility in Bos indicus(Nelore)beef cows[J].Theriogenology,2015,83(6):1093-1100.
[22]Andringa M F,Van Eerdenburg F J,Fernández E,et al.Comparison between two progesterone sources and two oestradiol formulations in a Heatsynch protocol for postpartum cycling dairy cows in pasture[J].J Vet Sci,2013,14(2):161-166.
[23]Whittier W D,Currin J F,Schramm H,et al.Fertility in Angus cross beef cows following 5-day CO-Synch+CIDR or 7-day CO-Synch+CIDR estrus synchronization and timed artificial insemination[J].Theriogenology,2013,80(9):963-969.
[24]Kasimanickam R,Asay M,Firth P,et al.Artificial insemination at 56 h after intravaginal progesterone device rem-oval improved AI pregnancy rate in beef heifers synchronized with five-day CO-Synch+controlled internal drug release(CIDR)protocol[J].Theriogenology,2012,77(8):1624-1631.
[25]Pfeifer L F M,Leonardi C E P,Castro N A,et al.The use of PGF2αas ovulatory stimulus for timed artificial insemination in cattle[J].Theriogenology,2014,81(5):689-695.
[26]Burns M G,Buttrey B S,Dobbins C A,et al.Evaluation of human chorionic gonadotropin as a replacement for gonadotropinreleasing hormone in ovulation-synchronization protocols before fixed timed artificial insemination in beef cattle[J].J Anim Sci,2008,86(10):2539.
[27]Keskin A,Yilmazbas-Mecitoglu G,Gumen A,et al.Effect of hCGvs GnRH at the beginning of the Ovsynch on first ovulation and conception rates in cyclic lactating dairy cows[J].Theriogenology,2010,74(4):602.
[28]Giles R L,Ahola J K,Whittier J C,et al.Administration of a GnRH analog on day 9 of a 14-day controlled internal drug release insert with timed artificial insemination in lactating beef cows[J].J Anim Sci,2013,91(4):1866-1873.
[29]SáFilho M F,Marques M O,Girotto R,et al.Resynchr-onization with unknown pregnancy status using progestin-based timed artificial insemination protocol in beef cattle[J].Theriogenology,2014,81(2):284-290.
[30]Pancarci S M,Jordan E R,Risco C A,et al.Use of estradiol cypionate in a presynchronized timed artificial insemination program for lactating dair y cattle[J].J Dair y Sci,2002,85(1):122-131.
[31]Yusuf M,Nakao T,Yoshida C,et al.Comparison in effect of Heatsynch with heat detection aids and CIDR-Heatsynch in dairy heifers[J].Reprod Domest Anim,2010,45(3):500-504.
[32]Karuppanasamy K,Sharma R K,Phulia S K,et al.Ovulatory and fertility response using modified Heatsynch and Ovsynch protocols in the anovular Murrah buffalo(Bubalus bubalis)[J].Theriogenology,2017,95:83.