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1.
不同季节绒山羊同期发情效果研究   总被引:1,自引:0,他引:1       下载免费PDF全文
 试验旨在研究不同季节绒山羊同期发情处理效果,为绒山羊胚胎移植和绒山羊养殖采用新繁殖技术实现集约化、工厂化生产管理提供配套技术。在2007~2008两年期间的四个季节,利用孕激素阴道栓(CIDR)+孕马血清(PMSG)方法,对766只绒山羊进行同期发情处理,48 h内有730只羊发情,发情羊第7 d在进行绒山羊胚胎移植时观察卵巢卵泡发育及排卵情况。结果表明:春、夏、秋、冬季绒山羊的同期发情率分别为94.08%、90.59%、97.54%、92.68%,平均为95.30%。经X2检验,秋季与夏季绒山羊的同期发情率(P<0.01)存在显著差异,其它季节绒山羊的同期发情率(P>0.05)差异不大。春、夏、秋、冬季发情绒山羊的排卵率分别为92.31%、90.91%、95.20%、91.23%,平均为93.56%。经X2检验,四个季节发情绒山羊的排卵率(P>0.05)没多大差异。试验结果表明在四个季节对绒山羊采用的CIDR+ PMSG同期发情处理方法可行,发情率和排卵率均在90%以上,效果好且稳定。季节虽然对绒山羊同期发情率有一定影响,但对发情绒山羊排卵率影响不大。  相似文献   

2.
Multiple ovulation and embryo transfer (MOET) is an important tool in the sheep industry for increasing numbers of genetically superior individuals. The objective of this study was to evaluate the effect of semen source (frozen or fresh), the number of embryo collection procedures for each donor (NECP), the season in which embryo transfer and collection was performed, and the age and breed of the donor, on the number of recovered embryos and pregnancy rates after embryo transfer. The Alamos Genetics’ flushing station database was used. This consisted of 140 embryo collection procedures, from 53 Dorper and White Dorper sheep donors, aged between one and eight years, totalling 1,200 collected embryos. Neither the number of retrieved embryos nor the pregnancy rate was affected by the semen preservation method (fresh or frozen), NECP or the age and breed of donor. The season did not affect the number of collected embryos but had a significant effect (p < 0.05) on the recipient pregnancy rate, with higher pregnancy rates reported in the winter (65.57% ± 25.33%) compared with spring (37.11% ± 33.27%), summer (29.95% ± 28.33%) or autumn (35.03% ± 31.66%). There is an estimated increase of 98.4% and 71.5% of embryos recovered in the spring and summer seasons, respectively, when winter is used as reference. The survival of embryos is significantly higher when implanted during the breeding season, more specifically in winter. Embryo collection can be carried out throughout the year in sheep, but there may be a marginal advantage in the use of superovulation and fresh embryo transfer programmes in the autumn and winter.  相似文献   

3.
[目的]为探究不同季节(月份)对西门塔尔牛冻融胚胎移植效果的影响。[方法]分析2015年10月—2017年8月在张掖和定西地区移植冻融胚胎143枚,其中春、夏、秋、冬分别移植36枚,58枚,45枚,4枚。[结果]在本试验条件下,春、夏、秋、冬的妊娠率分别是61.11%(22/36),72.41%(42/58),80.00%(36/45),25%(1/4);春、夏、秋、冬的流产率分别是31.82%(7/22),23.81%(10/42),30.55%(11/36),100%(1/1);经检验,组间差异极显著(P0.01)。7月中旬,9月,10月妊娠率均在80%以上,4月和7月下旬均在60%左右,1月只有25%。[结论]在甘肃秋季是牛冻融胚胎移植较佳的季节。  相似文献   

4.
秦川牛超数排卵效果的研究   总被引:2,自引:1,他引:2  
本研究共超排秦川牛31头次,有效超排20头次,有效率为64.5%。头均获胚总数6.45枚,可用胚4.20枚。激素用量为300 mg/头时,头均获胚总数和头均可用胚数显著高于260和340 mg组(P<0.05)。冬春季的头均获胚总数(8.56)和头均可用胚数(6.00)显著高于夏秋季(4.73、2.73)(P<0.05)。对供体牛连续超排处理3次,间隔70 d,对超排效果无显著影响。  相似文献   

5.
Animal welfare concerns require the development of housing systems that allow the animals to express their natural behaviour. One example of this is the group-housing system for lactating sows. The present study aimed at exploring ovarian activity in such a system. Thirty-eight sows farrowing individually outdoors during spring and summer, and indoors during autumn and winter, and group-housed in groups of four during weeks 3-7 of the lactation period, were monitored regarding reproductive functions, behaviour and production during their first to fourth lactation period. Average ovulation frequency during lactation was 47%. Only 50% of these ovulating cases were accompanied by a standing oestrus. Lactational ovulation frequency was higher in later parities (p < 0.001). Ovulation frequency was higher (p < 0.05) during winter (74%) and spring (69%), than during summer (10%) and autumn (23%). Occurrence of lactational ovulation was associated with some aspects of suckling behaviour and also with litter weight gain (p < 0.05). Forty-nine per cent of the lactational ovulations occurred during the seventh week of lactation. Timing of ovulation seemed positively (p = 0.08) associated with weight loss during lactation. Compared with the sows that were anoestrus during lactation, oestradiol-17beta values were higher (p < 0.05) only in the week before occurrence of lactational ovulation. Weaning-to-oestrous interval was prolonged (p < 0.05) among the sows that ovulated during lactation. The present study identifies several factors influencing ovarian activity among group-housed sows, thereby providing tools for the control of lactational ovulation in group-housing systems.  相似文献   

6.
In dogs, embryo transfer (ET) techniques such as induciton of excessive ovulation and synchronization of estrus have not progressed well. Therefore, using embryos at various developmental stages, ET was investigated in dogs from a beagle colony in which the ovulation days were close, as estimated by the progesterone level. Embryos were, recovered 8-11 days after ovulation (4-9 days after mating) by excising the oviducts and uteri (excision method) in 16 animals and by surgical flushing of the uteri at laparotomy (surgical method) in 3 animals. In 24 dogs with -4 to +2 days of difference in the timing of ovulation between donor and recipient dogs, 1-10 embryos at the 8-cell to blastocyst stages were transferred per animal. The mean embryo recovery rate by the excision method (97.1%) was significantly higher than that by the surgical method (42.5%) (p<0.01). Twelve (57.1%) of 21 animals with -1 to +2 days difference in ovulation day became pregnant after the transfer of 8-cell to blastocyst stage embryos. Although 3 dogs with -4 to -2 days of difference of ovulation day underwent ET of morula or compacted morula, none of these dogs became pregnant. The mean ratio of the number of newborns to the number of transferred embryos was only 51.9%. The mean duration of the period between ovulation and delivery in the pregnant recipients was 65.8 days, which tended to be longer than that in natural mating. These results demonstrate that pregnancy can be induced by ET at the 8-cell to blastocyst stage in dogs with -1 to +2 days difference in ovulation day.  相似文献   

7.
This study aimed to evaluate the hypothesis that mixed sequential grazing of dairy cows and breeding ewes is beneficial. During the seasons of spring–summer 2013 and autumn–winter 2013–2014, 12 (spring–summer) and 16 (autumn–winter) Holstein Friesian cows and 24 gestating (spring–summer) and lactating (autumn–winter) Pelibuey ewes grazed on six (spring–summer) and nine (autumn–winter) paddocks of alfalfa and orchard grass mixed pastures. The treatments “single species cow grazing” (CowG) and “mixed sequential grazing with ewes as followers of cows” (MixG) were evaluated, under a completely randomized design with two replicates per paddock. Herbage mass on offer (HO) and residual herbage mass (RH) were estimated by cutting samples. The estimate of herbage intake (HI) of cows was based on the use of internal and external markers; the apparent HI of ewes was calculated as the difference between HO (RH of cows) and RH. Even though HO was higher in CowG, the HI of cows was higher in MixG during spring–summer and similar in both treatments during autumn–winter, implying that in MixG the effects on the cows HI of higher alfalfa proportion and herbage accumulation rate evolving from lower residual herbage mass in the previous cycle counteracted that of a higher HO in CowG. The HI of ewes was sufficient to enable satisfactory performance as breeding ewes. Thus, the benefits of mixed sequential grazing arose from higher herbage accumulation, positive changes in botanical composition, and the achievement of sheep production without negative effects on the herbage intake of cows.  相似文献   

8.
为探讨和牛超数排卵的影响因素,试验采用4 d 8次注射Folltropin-V的超数排卵方法,在不同季节对不同父系和牛供体牛群超数排卵1~10次.结果表明:①春季、夏季、秋季和冬季超数排卵和牛分别获得7.1、7.8、8.3、7.7枚头均胚胎数和5.2、4.7、5.2和5.2枚头均可用胚胎数,差异均不显著(P>0.05);夏季和秋季超数排卵和牛分别获得3.2和3.1枚头均不可用胚胎数,显著高于春季获得的1.9枚头均不可用胚胎数(P<0.05);②和牛供体重复超数排卵1~10次,头均胚胎数、头均可用胚胎数和头均不可用胚胎数分别为7.5~9.3、4.6~6.1和2.7~3.4枚,差异均不显著(P>0.05);③父系为WESFA0107的供体牛群超数排卵获得11.1枚头均胚胎数,显著高于父系为GOSFZ0302、BYWFA0015、BYWFY0342、BYWFY0350和TFWFW06290供体牛群超数排卵获得的头均胚胎数(P<0.05),6.2枚头均可用胚胎数显著高于父系为BYWFY0350的供体牛群超数排卵获得的3.6枚头均可用胚胎数(P<0.05),3.3枚头均退化胚胎数显著高于父系为BYWFA0015、BYWFY0350和TFWFW06290的供体牛群超数排卵获得的1.8、1.1和1.7枚头均退化胚胎数(P<0.05),1.6枚头均未受精卵数显著高于其他6个父系供体牛群超数排卵获得的头均未受精卵数(P<0.05);父系为BYWFY0350的供体牛群超数排卵获得的5.3枚头均胚胎数和3.6枚头均可用胚胎数在7个不同父系供体牛群胚胎生产中均为最少.因此,避开夏季高温季节,增加超数排卵次数同时选择超数排卵反应好的同一父系供体能够提高和牛超数排卵效率.  相似文献   

9.
Two thousand and two heads obtained from slaughtered sheep at the Fars abattoirs (Shiraz, Southern Iran) between April 2006 and April 2007 were examined for the presence of Oestrus ovis larvae. Of the total heads, 995 (49.7%) were infested with O. ovis larvae. O. ovis larvae were observed in both sexes and all age groups in each season of the year. A total of 6264 larvae were collected. The overall larval intensity for the infested sheep was 6.3, with 3.9 in spring, 5.3 in summer, 5.9 in autumn and 7.8 in winter. Prevalence ranged from 23.3% in spring to 80% in winter. Increased infestation was observed in older animals.  相似文献   

10.
[目的]试验旨在探讨不同种类的促卵泡素(FSH)超数排卵处理、不同精液类型人工输精处理以及不同季节等前处理方式对高产荷斯坦奶牛体内性控胚胎生产效率的影响,为高产胚胎牛后代的繁育做出贡献。[方法]试验选取208头优质供体牛使用加拿大(Folltropin-v)和比利时进口的促卵泡素(FSH)进行超排,性控冻精和性控鲜精进行人工输精,春(3—5月)、夏(6—8月)、秋(9—11月)、冬(12—2月)四季进行胚胎生产。[结果]结果表明,使用产地为加拿大(Folltropin-v)促卵泡素进行超数排卵头均可用胚胎数和I级胚胎数(包括桑葚胚I级、囊胚I级)均显著高于比利时(P<0.05);通过使用性控冻精和性控鲜精对供体牛进行人工输精头均可用胚胎数分别为和I级胚胎数差异均不显著(P>0.05);春、夏、秋、冬四季进行胚胎生产头均可用胚胎数和I级胚胎数夏季均显著低于其他三季(P<0.05)。[结论]因此,使用加拿大促卵泡素(Folltropin-v)超数排卵、性控冻精进行人工输精避免在夏季进行胚胎生产可获得质量较高的高产荷斯坦奶牛体内性控胚胎。  相似文献   

11.
Gastrointestinal parasitism of Zebu crossbred (Z), Hereford (H), and Hereford X Brahman (HB) weaned steer calves was observed from March 1985 to May 1986. Three groups of 60 calves were randomised and in each group the three breeds were equally present. Calves in GI were untreated, in GII were treated strategically and in GIII treated monthly with anthelmintic. The effects of anthelmintic treatments on the growth of cattle were assessed by comparing mean live-weight gain (MLG) responses of treated and untreated calves grazing the same permanent pasture. Worm recovery and egg counts increased from autumn to winter. After abundant July rainfalls, herbage infective larvae (L3) and worm burdens (mainly Ostertagia) reached the highest levels and Z calves presented symptoms of clinical parasitism. After high availability of L3 in spring, L3 and egg counts decreased to the end of the study. From the end of winter until summer a high percent of inhibited Ostertagia EL4 was seen. Blood samples showed reduced serum copper lower levels for GI. MLG responses of Z treated calves were significantly higher during the autumn-spring and summer-autumn periods. MLG responses of treated H calves were significant only during the winter-spring period. For HB calves there were no significant MLG responses during any period. The highest monthly treatment response was observed during winter and early spring. All strategic treatments gave significant MLG responses in spring and late summer. Initial effects of parasitism, from autumn until early spring had the greatest consequences in current and later productivity. For Z calves herbage L3, worm burdens, egg counts and MLG responses were higher than for H and HB calves. The Z breed were significantly heavier (+22.7%) at the end of the experiment in GIII than in GI. Similar trends were recorded, significantly, for H breed (+17.7%) and not statistically significant for HB (+12.7%). Under our temperate conditions it seems that H and HB calves showed greater capacity to resist nematode infection than Z calves.  相似文献   

12.
An epidemiological study on equine cestodosis was carried out in central Spain. A total of 372 digestive tracts from equids slaughtered in abattoirs located in central Spain were studied from November 2001 to May 2004. Anoplocephala perfoliata was detected in 24% of the animals and Anoplocephala magna in 18%. Individual tapeworm burden was from 1 to 491 tapeworms for A. perfoliata and from 1 to 64 tapeworms for A. magna. Low tapeworm burdens (less than 30 cestodes) predominated significantly (p < 0.01) in all seasons for both species.

Seasonal prevalence of infection by A. perfoliata was significantly higher (p < 0.01) in autumn (37.5%) and winter (32.3%) than in spring (9.2%) and summer (10.8%). Immature tapeworms were detected throughout summer (11%), autumn (23.4%) and winter (26.6%), signalling a summer to winter risk period for tapeworm infection in our conditions. Mature non-gravid tapeworms were collected in all seasons, with a decreasing pattern from summer (89%) to spring (6.7%). Conversely, gravid tapeworms showed an increasing pattern, from 0 in summer to a maximum (93.3%) in spring. Since prevalence of infection was significantly higher in winter than in spring, winter seems to be the season when more eggs would be available to be eaten by mites. A. perfoliata infection was detected in three different periods throughout the 3 year study: autumn 2001–winter 2002, summer 2002–spring 2003 and autumn 2003–spring 2004. This epidemiological pattern seems to describe the dependence of A. perfoliata to humidity in warm dry climate. In our conditions, A. perfoliata appears to follow a pattern of having only one generation per year, with a marked dependence on humidity. According to the results, autumn rainfall would influence the length, and late spring rainfall the appearance, of each annual generation.

A. magna showed a different pattern. Infection was detected throughout the whole study period. Seasonal prevalence was higher in autumn (25.5%) than in winter (14.9%), spring (12.1%) and summer (10.5%), but the differences were not statistically significant. Non-gravid A. magna tapeworms could be detected almost throughout the year but percentages were significantly higher (p < 0.01) in autumn (50.2%), indicating recent ingestion, than in the other seasons (30% in summer, 12.8% in winter and 0% in spring). However, data from spring were not enough to discard the season as a risk period for A. magna infection.  相似文献   


13.
From 1974 to 1977, 62 wild mule deer (Odocoileus hemionus) fawns from Steens Mountain, Ore were euthanatized in autumn (23 deer), winter (21 deer), and spring (18 deer). The number of sarcocysts of Sarcocystis spp was counted in histologic sections of various muscular organs. Sarcocysts were seen in the muscle specimens of 14 of the 23 deer euthanatized in autumn (September to November) and in specimens from all 39 deer euthanatized in winter (December and January) and spring (March and April). The sarcocyst burden was greatest in the spring (736/deer), less in the winter (150/deer), and least in autumn (12/deer). Most sarcocysts collected from 3- to 5-month-old deer in autumn were immature, whereas most sarcocysts collected from 9- and 10-month-old deer in the spring were mature. More sarcocysts were seen in sections of muscles from limbs than in those of tongue, esophagus, and other skeletal muscles; the fewest sarcocysts were seen in the heart. Degenerating sarcocysts were seen in deer examined in the spring, but not in deer examined in autumn and winter. Sarcocystis was the only infectious agent found in unthrifty deer fawns. Of the 18 fawns (6 in autumn, 1974; 6 in winter, 1974; and 6 in spring, 1975) examined for helminths, only mild infections were seen in the deer examined in the spring of 1975. From 1974 to 1977, from the Crooked Creek area of Oregon, 48 mule deer fawns (12 in autumn, 18 in winter, and 18 in spring) were euthanatized and evaluated for Sarcocystis infections.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

14.
To obtain normal kits by embryo treansfer (ET) during the non-breeding season, maintenance of pregnancy was carried out by administration of sustained action progesterone (P4) in queens. Embryos were recovered six days after mating from five donor queens in which ovulation was induced by administration of eCG and hCG. The number of embryos recovered ranged from 24 to 53 (mean: 37.2 +/- 6.4) per animal and most embryos were compacted morulae. The yield of embryos was 49.0-93.3% (mean: 73.8 +/- 9.6%). As for recipients, porcine pituitary gland preparation and hCG were administered to 19 queens and estrus and ovulation were induced in 18 queens (94.7%). These queens underwent intrauterine ET of five compacted morulae and 17 cats (94.4%) were impregnated. The number of implantations was 2-5 (mean: 3.7 +/- 0.3). Among these impregnated queens, 15 cats received P4 adminstration starting on day 24 of gestation and 1-5 newborns (mean: 3.4 +/- 0.3) were obtained by normal delivery or caesarean section on day 64-69 of gestation. However, two animals that were not treated with P4 underwent spontaneous abortion about the mid gestational period. Therefore, it is possible to obtain normal kits from queens in the non-breeding season by ET with maintenance of pregnancy by P4 administration.  相似文献   

15.
The aim of this study was to evaluate whether the season of ejaculate collection influences seminal quality parameters of pre‐ and post‐freeze–thawing in Xinong Saanen bucks. Ejaculates were collected from eight bucks throughout the four seasons (spring, summer, autumn and winter) in a 12 months’ time period, identified in the Northern Hemisphere. Semen samples were evaluated by the combinations of conventional and Computer‐Assisted Sperm Analysis (CASA) when fresh and after frozen–thawed, respectively. The results clearly demonstrated that season of ejaculate collection influenced (p < 0.05) fresh semen quality. Highest semen quality was observed during autumn. On the contrary, undesirable indices (significantly lower, p < 0.05) were observed in winter as compared with the other remaining seasons. CASA has clearly shown the influences of seasonal variations on semen motility parameters. Furthermore, season of ejaculate collection was also found to influence sperm freezability. Semen characteristics after frozen–thawed followed a similar pattern with that of fresh ejaculate except in spring. The results revealed that sperm quality was higher (p < 0.01) in summer and autumn than in spring and winter. In conclusion, seasonal variation influences semen quality in Xinong Saanen bucks. In addition to summer and autumn, fresh ejaculates in spring can also be successfully used for AI. Sperm from ejaculates collected during summer and autumn are more suitable for cryopreservation. Hence, it is possible to increase the efficiency of goat breeding by manipulating the seasonal variations of semen quality for immediate AI and/or cryopreservation.  相似文献   

16.
为探讨不同利用方式与程度对草地植被碳含量的影响,对阿坝牧区不同利用方式草地(封育天然割草地、人工栽培、放牧草地)和植物生长季不同利用程度草地植被的地上部分、地下根系和枯落物的碳含量进行调研。结果表明,1)草地地上植被碳含量在不同利用方式上表现为封育天然割草地、冬春放牧草地和人工栽培草地显著高于夏秋放牧草地(P<0.05);生长季不同利用程度上冬春和夏秋轻度放牧草地显著高于重度和中度放牧草地(P<0.05)。2)草地枯落物碳含量在不同利用方式与程度上差异均不显著。3)从根系总碳含量来看,不同利用方式上夏秋放牧草地和封育天然割草地显著高于冬春放牧草地和人工栽培草地 (P<0.05);生长季不同利用程度上夏秋中度和轻度放牧草地显著高于夏秋重度和冬春放牧草地(P<0.05),且各种利用方式与程度草地地下根系总碳含量均从表层向下依次显著的递减(P<0.05),0~10 cm 的根系碳含量占总量的65%以上,10~30 cm各草地根系碳含量差异不显著(P<0.05)。通过数量关系得出,草地植被碳含量在利用方式上表现为封育天然割草地(356.509 g/m2)>冬春放牧草地(297.780 g/m2)>人工栽培草地(164.953 g/m2)>夏秋放牧草地(137.577 g/m2),地上植被碳含量分别为地下根系碳含量的15.334,17.130,9.167和5.146倍;在生长季不同利用程度上表现为冬春放牧草地(297.780 g/m2)>夏秋轻度放牧草地(217.002 g/m2)>夏秋重度放牧草地(113.849 g/m2)>夏秋中度放牧草地(81.882 g/m2),地上植被碳含量分别为地下根系碳含量的17.130,8.636,4.412和2.430倍。利用方式和放牧强度是影响草地植被碳含量的重要因素。  相似文献   

17.
为探究三江源区不同季节放牧草场天然牧草营养供给潜力和载畜量,选用3头安装永久性瘤胃瘘管的成年大通牦牛为瘤胃液供体动物,采用概略养分分析法和体外产气法,结合产草量对放牧草场牧草进行综合评定并确定其载畜量。结果表明,1)夏、秋及冬春放牧草场的可食风干草的最高产量分别为(123.83±17.88),(256.88±29.90)和(246.83±66.73) g/m2。2)夏、秋及冬春草场天然牧草的最高粗蛋白(CP)含量分别为(12.69±0.13)%,(10.54±1.22)%和(8.65±0.64)%,其含量随牧草生长而逐渐降低;夏、秋及冬春草场天然牧草EE的最高含量分别为(2.95±0.10)%,(4.38±0.17)%及(3.74±0.70)%;NDS含量的变化趋势与CP一致,而NDF和ADF含量的变化与CP相反,随牧草生长含量不断增加。3)体外发酵pH和氨氮浓度均在正常范围内;夏季草场牧草的48 h产气量、24 h产气估测消化能(DM)、代谢能(ME)和有机物质降解率(OMD)的最大值分别为(57.50±4.27) mL、(9.32±0.59) MJ/kg、(7.98±0.62) MJ/kg和(57.93±3.23)%;秋季草场牧草分别为(54.67±5.35) mL、(8.83±0.64) MJ/kg、(7.47±0.68) MJ/kg及(55.26±3.52)%;冬春草场牧草分别为(58.83±4.51) mL、(9.56±0.60) MJ/kg、(8.24±0.63) MJ/kg及(52.69±5.14)%。4)无补饲条件下,夏、秋及冬春天然放牧草场载畜量分别按数量载畜量、数量载畜量和DCP载畜量核算放牧科学,其最适载畜量分别为7.05,19.51和2.47 SU/hm2;有良好补饲情况下,夏、秋及冬春天然放牧草场载畜量按DCP载畜量、ME载畜量和ME载畜量核算放牧科学,其最适载畜量分别为14.85,29.00和5.03 SU/hm2。因此,三江源区牧草产量和品质季节性差异大,能-氮不平衡,通过补饲可以使夏、秋及冬春放牧草场的载畜量分别提高1.1,0.5和1.0倍左右,有利于促进当地畜牧业发展和生态保护。  相似文献   

18.
The efficacy of eight combinations of fluorogestone acetate (FGA, 20 or 40 mg as intravaginal device during 11 days), equine chorionic gonadotropin (eCG, 300 or 500 UI injected 48 hr before FGA removal) and prostaglandin F (cloprostenol, 0 or 50 μg injected 48 hr before FGA removal) aiming at induction and synchronization of oestrus and ovulation was evaluated during the anoestrus season in spring and during the breeding season in autumn in adult Beni Arouss goats. Oestrous behaviour was recorded between 12 and 60 hr after FGA removal. Blood samplings allowing to assess onset of the pre‐ovulatory LH surge and increase of progesterone as sign of an active corpus luteum were performed, respectively, between 20 and 60 hr and 3, 5, 8 and 15 days after FGA removal. No season‐related differences (spring vs. autumn) were observed for oestrous response (95% vs. 93%), pre‐ovulatory LH surge (94% vs. 84%) and luteal response after 3–8 and 11–15 days post‐treatment (respectively 92% vs. 66% and 92% vs. 98%). The onset of oestrus (21 [13–53] vs. 32 [12–54] hr) and LH surge (26 [20–60] vs. 38 [22–60] hr) occurred significantly later in autumn. FGA (40 vs. 20 mg) in autumn significantly delayed the onset of oestrus (36 [16–54] vs. 23 [12–47] hr) and LH surge (44 [26–58] vs. 33 [22–60] hr). Significant treatment‐related differences were recorded for onset of LH surge (earliest for 20 mg FGA, 300 IU eCG, 50 μg PGF) and onset of luteal phase (latest for 40 mg FGA, 300 IU eCG, 50 μg PGF). In conclusion, the hormone combinations tested appeared equally effective in terms of oestrous and ovulation rates. Season has influenced significantly the onset of oestrus and LH surge, and the high dose regimen of FGA delayed the ovarian response in autumn.  相似文献   

19.
2007~2008年的春季、夏季、秋季、冬季前期及冬季后期,我们研究了围栏对内蒙古达赉湖地区蒙原羚食物资源的影响。研究结果如下:(1)地上生物量:春季、冬季前期、冬季后期围栏内地上生物量高于围栏外且差异显著(P〈0.05),夏季、秋季差异不显著(P〉0.05)。(2)植物高度:春季围栏内植物高度高于围栏外且差异显著(P〈0.05),夏季、秋季、冬季前期、冬季后期差异不显著(P〉0.05)。(3)植物盖度:春季、夏季、秋季、冬季前期、冬季后期围栏内植物盖度高于围栏外且差异显著(P〈0.05)。(4)生物多样性指数:植物丰富度春季差异不显著(P〉0.05),夏季、秋季、冬季前期、冬季后期围栏内植物丰富度高于围栏外且差异显著(P〈0.05);Shannon-Wiener指数春季差异不显著(P〉0.05),夏季、秋季、冬季前期、冬季后期围栏内Shannon-Wiener指数高于围栏外且差异显著(P〈0.05)。研究结果表明在现有情况下,围栏有利于蒙原羚的保护。  相似文献   

20.
青藏高原天然草场放牧家畜的采食量动态研究   总被引:8,自引:0,他引:8  
用4N盐酸不溶灰份法测定牦牛和高山细毛羊的采食量季节动态,结果发现:在夏季、秋季和冬季,牦牛的采食量随年龄增大而增大(5岁前:P<0.01;5~6岁之间:P<0.05),6岁以后规律不明显;在春季,5岁、6岁和7岁牦牛的采食量间无显著差异(P>0.05)。在任何季节,6岁和7岁牦牛的采食量间无显著差异(P>0.05)。一岁牦牛的采食量在冬季最高,夏季次之,其它所有年龄组的牦牛的采食量在春季最高,冬季次之;所有牦牛的秋季采食量最低。高山细毛羊的采食量季节波动与牦牛类似,除1岁高山细毛羊的采食量在冬季和夏季最高,其它所有年龄组的高山细毛羊的采食量在春季最高,冬季次之;所有试羊的秋季采食量最低。用二次方程预测了牦牛从1岁起的累计牧草消耗量(AFC)与牦牛年龄间的关系,拟合度很高,R2均大于99.9%。牦牛的牧草消耗量随年龄而上升的速率远高于高山细毛羊,但相同年龄的牦牛和高山细毛羊,高山细毛羊每公斤体重所消耗的牧草量高于牦牛。  相似文献   

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