Lifetime performances in Carora and Holstein cows in Venezuela

A study was conducted in the Central-western region of Venezuela to investigate the lifetime performances of 7918 Carora and 3501 Holstein cows under two different levels of management (low and high) and covering a period from 1961 to 1995. Traits analysed were: herd life, productive life, number of calvings, lifetime milk yield, days in lactation over all lactations and daily milk yield. In Carora cows born from 1961 to 1986 a decrease in herd life, productive life and number of calvings was observed, whereas cows born between 1971 and 1972 showed the lowest lifetime productive traits. Performances of Holstein cows born in the 1981–1986 period were analysed and all traits decreased during this time period. In low level herds, Holsteins remained longer (98.5 months vs. 83.3 in herd life; 69.5 vs. 54.3 months in productive life) and had higher lifetime yield (20 925 vs. 18 589 kg) than those in high level herds, but daily milk yield was lower (8.4 vs. 11.0 kg/day). All lifetime performances were higher for Carora cows under the high level management: 116.8 vs. 112.1 months of herd life, 81.8 vs. 77.1 months of productive life, 5.8 vs. 5.2 calvings, 1616 vs. 1299 days of lactation, 16 194 vs. 11 912 kg of milk over all lactations and 6.5 vs. 4.6 kg milk/day. Survival estimates for year of birth were more variable in Holsteins than in Carora cows. Management influenced survival in Holsteins only, the low level showing higher values.     

Relationships between age at first calving and first lactation milk yield, and lifetime productivity and longevity in dairy cows

Lifetime records of 442 Holstein cows on one farm in North Queensland, Australia, were analysed to evaluate the effects of age at first calving (AFC) and first lactation milk yield on parities per lifetime, longevity, milk yield in subsequent lactations, lifetime milk production and the longevity index (LI), that is the proportion of a cow's life spent in active milk production. The mean daily yield in the first lactation was a reliable indicator of milk yield in subsequent lactations, estimated lifetime production, longevity and LI. The afc had no effect on lifetime days in milk. Neither the AFC nor the milk yield in the first lactation significantly affected the number of parities per lifetime. For the majority of cows, which produced less than 30 l/day in the first lactation, there was a significant positive relationship between longevity and AFC. However, none of the cows that produced more than 30 l/day in the first lactation survived for more than two lactations. The optimal AFC was thus two to two-and-a-half years, as these cows had the highest first lactation yield, estimated lifetime production and LI. The optimal mean daily yield in the first lactation was 20 to 30 l/day, as these cows lived longer and had a higher LI and lifetime production.     

荷斯坦牛泌乳前期体况评分及其对泌乳性能和离群寿命的影响

为了探究荷斯坦牛泌乳前期体况评分（body condition score,BCS）的影响因素及BCS对生产性能和离群寿命的影响,本研究收集江苏省某大型牛场2018年1月至2020年12月共7 811头荷斯坦牛泌乳前期BCS、生产性能测定（dairy herd improvement,DHI）结果及淘汰记录,利用多因素方差分析法在分析奶牛泌乳前期BCS变化及影响因素基础上,重点分析泌乳前期BCS及其变化对泌乳性能和离群寿命的影响,利用Cox回归对泌乳前期不同BCS的荷斯坦牛生存曲线进行绘制,并对不同BCS荷斯坦牛的淘汰原因进行卡方检验。结果表明,全群泌乳前期BCS均值为（2.95 ±0.32）。胎次、产犊季节和泌乳天数对泌乳前期BCS有极显著影响（P<0.01）,1胎牛和夏季产犊的母牛泌乳前期BCS均最高;5~30、31~60、61~100 d BCS呈显著下降。泌乳前期BCS对产奶量、乳脂率、乳蛋白率、体细胞评分等均有极显著影响（P<0.01）。产奶量和高峰奶量随BCS的增加呈极显著下降（P<0.01）。泌乳前期BCS与产奶量、高峰奶量呈极显著负相关（P<0.01）,与乳蛋白率呈极显著正相关（P<0.01）。泌乳前期BCS的变化对SCS和高峰奶量均有显著影响（P<0.05）。泌乳前期BCS对离群胎次和淘汰月龄有极显著影响（P<0.01）。生存分析表明,BCS为2.75的牛只生存概率最大。2胎和4胎母牛、冬季产犊的母牛不同BCS淘汰比例均呈极显著差异（P<0.01）;低产淘汰的牛只泌乳前期BCS淘汰分布具有极显著差异（P<0.01）。在本研究牛群中,当泌乳前期BCS为2.75时,牛只生产性能较佳且淘汰风险最低,本研究为规模化牛场荷斯坦牛泌乳前期的饲养管理提供了参考。     

Effects of first breeding age on the production and reproduction of Holstein heifers up to the third lactation

The effects of early initiation of first service for dairy heifers on their fertility and productivity up to the third lactation were examined under constant raising and management conditions. Eight Holstein heifers in their early breeding regimens and eight Holstein heifers in their late breeding regimens were initiated to be bred at 12 and 15 months of age, respectively, and were first calved at 21.5 and 25.1 months of age, respectively, with bodyweights of 563 and 638 kg after calving, respectively. Early first breeding resulted in a lower bodyweight and a lower body condition score, but it did not affect the fertility or milk production during the first lactation of heifers as cows. The calving intervals of cows to the second and third calving were similar in early and late bred heifers. Although the early bred heifers had a significantly lower fat‐corrected milk yield at the second lactation than that of the late bred heifers, early breeding did not impair the productivity indicated by the mean milk yield per day from birth to the end of the third lactation with a shorter production period.     

荷斯坦牛产后前60 d患隐性乳房炎次数对各泌乳月SCS的影响

荷斯坦牛产后前60 d患隐性乳房炎（SCM）次数反映了泌乳牛产后乳房的生理健康状况。本研究旨在探究荷斯坦牛产后前60 d患SCM次数对各泌乳月体细胞评分（somatic cell score,SCS）的影响,以期为牧场及时采取相关措施进行隐性乳房炎防控提供科学依据。本研究收集江苏地区12个奶牛场2017—2019年荷斯坦牛365 105条DHI测定日记录,并利用一般线性模型分析荷斯坦牛产后前60 d患SCM次数对不同胎次、牧场规模、测定季节、产犊季节各泌乳月SCS的影响。结果表明,荷斯坦牛产后前60 d患SCM次数对不同胎次、牧场规模、测定季节和产犊季节各泌乳月SCS均有极显著影响（P<0.01）;5胎及以上和夏季产犊的荷斯坦牛产后前60 d患SCM的比例较高;中小规模牧场和夏、秋季节产犊的荷斯坦牛各泌乳月SCS随产后前60 d患SCM次数的增加极显著增加（P<0.01）;随着泌乳月的增加,产后前60 d SCS与各泌乳月SCS的相关系数逐渐下降,头胎牛产后前60 d SCS与第3~7泌乳月SCS的相关系数最低,4胎牛较高;秋季产犊的荷斯坦牛产后前60 d SCS与第3~5泌乳月SCS相关系数均大于0.43,高于其他产犊季节。该结果有利于牧场根据奶牛产后前60 d患SCM次数乳对泌乳中后期SCS进行预测,从而指导牧场及时采取相关措施进行隐性乳房炎防控。     

荷斯坦奶牛牛嘴宽度影响因素分析及遗传参数估计

【目的】探究中国荷斯坦奶牛牛嘴宽度的群体规律,并估计其遗传参数。【方法】2021年7月至2021年8月分别在2个规模化奶牛场测定了628头泌乳期荷斯坦奶牛的牛嘴宽度及臀高、体高、体斜长和胸围等体尺性状,同时利用体斜长和胸围估计试验牛体重。利用SPSS 26.0软件分析了牧场、月龄和泌乳阶段等因素对牛嘴宽度的影响,以及牛嘴宽度与各体尺性状之间的相关关系;基于DMU软件采用单性状动物模型估计了牛嘴宽度的方差组分及遗传力。【结果】荷斯坦奶牛牛嘴宽度的群体平均值为17.28 cm,变异系数为5%,变异相对较小;牧场和月龄对牛嘴宽度均有极显著影响(P<0.01),泌乳阶段对牛嘴宽度有显著影响(P<0.05),牛嘴宽度随母牛月龄的增加呈逐渐增加的趋势,泌乳初期牛嘴宽度显著小于其他泌乳阶段(P<0.05);牛嘴宽度与各体尺性状之间存在极显著正相关(P<0.01);荷斯坦奶牛牛嘴宽度的遗传力估计值为0.28,为中高遗传力性状。【结论】牧场和月龄对奶牛牛嘴宽度影响极显著,泌乳阶段对奶牛牛嘴宽度影响显著,牛嘴宽度与臀高呈较弱相关。荷斯坦奶牛牛嘴宽度是一个具有中高遗传力的体尺性状。     

荷斯坦奶牛休息时间的群体特征及影响因素分析

为探究北京地区荷斯坦奶牛休息时间的群体规律及影响因素,本研究收集了北京地区某规模化牧场2018年4月至2020年4月共838头荷斯坦奶牛的休息时间及对应的奶牛生产性能测定记录及环境温湿度数据,利用SAS 9.2软件的GLM过程分析了年份、季节、场区、胎次和泌乳月等因素对荷斯坦奶牛休息时间的影响,并分析了休息时间对荷斯坦奶牛生产性能的影响。结果显示,荷斯坦奶牛平均休息时间为397.39 min/d,范围为87.74~707.03 min/d,变异系数为26%;休息时间随季节呈先降低后升高的趋势,夏季最低,冬季最高;随环境温湿度的升高而逐渐降低;产犊和发病对休息时间均有较大影响,产犊和发病当天奶牛休息时间均存在一个峰值,之后逐渐降低至正常水平;测定年份、季节、场区、胎次和泌乳月份对休息时间均有极显著影响（P<0.01）;荷斯坦奶牛产奶量随休息时间的升高而降低。本研究为利用自动化记录设备探究奶牛的行为规律及利用连续测定的休息时间数据提高牛群的精准管理水平提供了理论依据。     

不同模型拟合奶牛泌乳曲线的效果分析

收集921头荷斯坦牛1～5胎共2386胎次的第1～10泌乳月泌乳资料,选择Wood模型和多项式模型拟合奶牛泌乳曲线。结果,Wood模型对该奶牛群1～5胎(第1～10泌乳月)泌乳曲线的拟合精度R2偏低(0.8753～0.9791);剔除第1泌乳月,Wood模型拟合泌乳曲线(第2～10泌乳月)R2显著提高(0.8753～0.9791),拟合效果优秀。多项式模型对1～5胎(第1～10泌乳月)泌乳曲线进行拟合,R2都在0.90以上,拟合精度高,估计误差小。     

荷斯坦青年牛初次配种妊娠月龄对头胎和二胎产奶量和繁殖性能的影响

旨在研究母牛初次配种妊娠月龄（age at first pregnancy,AFP）对其泌乳性能和主要繁殖性能的影响。本研究以我国北方地区2个规模化奶牛场13 927头荷斯坦母牛（A牧场8 091头,B牧场5 836头）的生产数据为基础,统计了母牛AFP、头胎和二胎的产奶量、产后首次发情时间、首次配种时间和首次受孕时间,然后将母牛根据AFP的早晚（12~19月龄）分为8组,对各试验组母牛的头胎和二胎产奶量和主要繁殖性能的数据进行比较分析。结果表明：1）2个规模化奶牛场荷斯坦青年牛AFP以13和14月龄为主（总占比70.1%）;2）AFP可显著影响荷斯坦青年牛头胎和二胎的305 d产奶量（P<0.05）,其中AFP为14月龄时A牧场头胎和二胎305 d产奶量均最高,分别为15 102和15 534 kg;3）AFP可显著影响荷斯坦青年牛头胎和二胎产后首次发情时间和受孕时间（P<0.05）,AFP为14月龄时头胎产后首次发情和受孕情况最优;4）对于产后首配时间,除A牧场头胎AFP为16月龄时产后首次配种时间显著高于AFP为17月龄时（P<0.05）外,其余各组间均无显著性差异（P ≥ 0.05）,并且各组间配种时间相差≤ 5 d;5）通过对A牧场在场牛（2 703头）与淘汰牛（660头）的AFP记录数据分析发现,在场牛的AFP为14.52月龄,显著高于淘汰牛的AFP（P<0.05）。因此,在北方地区现有的生产管理水平下,14月龄可能是荷斯坦青年牛最适宜的初次配种妊娠月龄,这对我国规模化奶牛场选择荷斯坦青年牛适宜的初次配种月龄具有一定参考价值。     

产犊季节对荷斯坦牛第一胎泌乳性能的影响

[目的]为了研究不同产犊季节对荷斯坦奶牛第一胎泌乳性能的影响,以便为长江中下游地区荷斯坦奶牛合理安排配种时间提供科学依据。[方法]利用海丰奶牛场有限公司2009年引进2480头澳系进口荷斯坦牛产犊季节及其第一胎泌乳性能的数据,分析不同产犊季节对第一胎泌乳天数、全泌乳期实际产奶量、305d校正奶量、305d脂肪产量和305d蛋白产量的影响。[结果]表明:不同产犊季节对第一胎泌乳天数和全泌乳期产奶量影响极显著(P0.01),显著影响305天脂肪产量(0.01P0.05),春季产犊的奶牛泌乳天数最长(358±10d),而冬季产犊的奶牛泌乳天数最短(299±18d),春季与夏季产犊奶牛的全泌乳期产奶量显著高于秋季、冬季产犊奶牛(P0.05),夏季产犊奶牛305d脂肪产量最高。[结论]综合各产犊季节样本量及相应泌乳性能,认为该场澳系进口荷斯坦牛最适宜产犊季节为夏末秋初,此时泌乳性能最好。该结果对同类地区引进澳系进口荷斯坦牛繁殖与生产管理有借鉴作用。     

Cloned cows with short telomeres deliver healthy offspring with normal-length telomeres

Dolly, the first mammal cloned from a somatic cell, had shorter telomeres than age-matched controls and died at an early age because of disease. To investigate longevity and lifetime performance in cloned animals, we produced cloned cows with short telomeres using oviductal epithelial cells as donor cells. At 5 years of age, despite the presence of short telomeres, all cloned cows delivered multiple healthy offspring following artificial insemination with conventionally processed spermatozoa from noncloned bulls, and their milk production was comparable to that of donor cows. Moreover, this study revealed that the offspring had normal-length telomeres in their leukocytes and major organs. Thus, cloned animals have normal functional germ lines, and therefore germ line function can completely restore telomere lengths in clone gametes by telomerase activity, resulting in healthy offspring with normal-length telomeres.     

Colostral immunoglobulin concentrations in Holstein and Guernsey cows.

OBJECTIVE: To compare the concentration of IgG in colostrum between Holstein and Guernsey cows and among cows of various lactations. DESIGN: Cross-sectional cohort study. SAMPLE POPULATION: Colostrum samples from 77 Holstein and 24 Guernsey cows. PROCEDURE: Colostrum samples were obtained from 101 cows. Colostral IgG concentration was determined, using a radial immunodiffusion assay. Regression analysis was used to determine the effect of breed and lactation number on colostral IgG concentration. Survival analysis and t-tests were used to compare the proportion of colostrum samples that would provide 100 g of IgG for various volumes of colostral intake. RESULTS: Guernsey cows produced 36.4 g of IgG/L of colostrum more than that of Holstein cows. Cows in the third or greater lactation produced 19.5 g of IgG/L of colostrum more than that of first-lactation cows. The IgG concentration of colostrum produced by second-lactation cows did not differ significantly from that produced by first-lactation cows. The colostral IgG concentration of these Holstein and Guernsey cows was higher than values that have been reported elsewhere. CONCLUSIONS AND CLINICAL RELEVANCE: Volume of colostrum needed to meet IgG intake goals is probably lower for Guernsey cows than Holstein cows. Colostrum from first-lactation cows was adequate in IgG content. The practice of discarding colostrum from first-lactation cows on the basis of inadequate IgG content was not justified in this study.     

荷斯坦牛采食时间的群体特征及其影响因素分析

【目的】探究荷斯坦牛采食时间的群体规律及其影响因素,旨在为日采食时间的遗传分析奠定基础,同时为牧场利用采食时间对牛群进行精准管理提供参考。【方法】收集北京地区某规模化牧场2019年7月至2021年3月的1 166头泌乳期荷斯坦牛的原始采食时间记录(每小时记录1次)及日采食时间数据(每24 h记录1次),利用SAS 9.2线性混合模型分析胎次、测定季节、泌乳阶段、场区和测定年份对日采食时间的影响。【结果】北京地区荷斯坦牛日平均采食时间为(224.43±60.24) min,原始采食时间平均值为(9.41±4.67)min/h。根据原始采食时间统计分析发现,采食高峰均出现在投料时段,并且胎次、季节和泌乳阶段均对采食时间高峰存在一定影响。试验期间荷斯坦牛日采食时间随环境温湿度指数(temperature and humidity index,THI)的升高总体呈下降趋势,在夏季相对较低。胎次、测定季节、泌乳阶段、场区和测定年份均对日采食时间有极显著影响(P＜0.01):日采食时间在春季最高,为(201.66±1.91) min,夏季最低,为(158.85±1.92) min;对于不同胎次的牛,日采食时间随着胎次的升高逐渐降低,2胎和3胎及以上的奶牛日采食时间与1胎牛相比分别下降了4.90和27.36 min;随着泌乳阶段的推移,奶牛的日采食时间呈先增加后减少的趋势,泌乳中期最高,为(197.62±1.80) min,围产后期最低。【结论】北京地区荷斯坦牛采食时间的群体特征与牛生理状态及所处环境均有关,规模化牧场可利用相关设备自动记录的采食时间数据进行精细化管理。     

宁夏地区荷斯坦牛成母牛淘汰情况及长寿性影响因素分析

试验通过收集出生、产犊和离群的记录,探究宁夏地区荷斯坦牛成母牛的淘汰情况,分析影响该地区奶牛长寿性的因素。对15 523头荷斯坦牛的生产寿命、在群寿命和利用胎次进行描述性统计,分析淘汰时的胎次、季节和泌乳阶段的分布情况;计算生产寿命、在群寿命和利用胎次之间的表型相关,利用固定模型分析场-出生年、出生季节、牧场规模、淘汰原因和头胎产犊月龄对长寿性的影响。结果显示,宁夏地区荷斯坦牛的平均利用胎次为2.36胎,平均生产寿命为736.59 d。荷斯坦牛成母牛在产后第1个月内的淘汰风险最高,随着泌乳阶段的延长,成母牛在每个胎次内的淘汰风险均逐渐降低;随着淘汰胎次的增加,奶牛淘汰更加集中发生在产后泌乳早期;生产寿命、在群寿命和利用胎次之间存在较高的表型相关（均>0.9）,场-出生年、出生季节、牧场规模、淘汰原因和头胎产犊月龄对长寿性有显著影响（P<0.05）,春季出生和22月龄头胎产犊的奶牛长寿性表现更好。本研究初步揭示了宁夏地区荷斯坦牛成母牛的淘汰规律和长寿性的影响因素,为宁夏地区牛群选育成母牛长寿性状奠定了基础。     

宁夏地区荷斯坦牛成母牛淘汰情况及长寿性影响因素分析

试验通过收集出生、产犊和离群的记录,探究宁夏地区荷斯坦牛成母牛的淘汰情况,分析影响该地区奶牛长寿性的因素。对15523头荷斯坦牛的生产寿命、在群寿命和利用胎次进行描述性统计,分析淘汰时的胎次、季节和泌乳阶段的分布情况;计算生产寿命、在群寿命和利用胎次之间的表型相关,利用固定模型分析场-出生年、出生季节、牧场规模、淘汰原因和头胎产犊月龄对长寿性的影响。结果显示,宁夏地区荷斯坦牛的平均利用胎次为2.36胎,平均生产寿命为736.59 d。荷斯坦牛成母牛在产后第1个月内的淘汰风险最高,随着泌乳阶段的延长,成母牛在每个胎次内的淘汰风险均逐渐降低;随着淘汰胎次的增加,奶牛淘汰更加集中发生在产后泌乳早期;生产寿命、在群寿命和利用胎次之间存在较高的表型相关(均>0.9),场-出生年、出生季节、牧场规模、淘汰原因和头胎产犊月龄对长寿性有显著影响(P<0.05),春季出生和22月龄头胎产犊的奶牛长寿性表现更好。本研究初步揭示了宁夏地区荷斯坦牛成母牛的淘汰规律和长寿性的影响因素,为宁夏地区牛群选育成母牛长寿性状奠定了基础。     

Voluntary intake and milk production in F1 Holstein × zebu cows in confinement

The objective of this study was to evaluate the nutrient intake and milk production in Holstein × zebu (F1) cows in feedlot. Eighteen F1 cows were used, divided into three treatments; six were Holstein × Gir (HGI), six were Holstein × Guzerat (HGU), and another six were Holstein × Nelore (HNE), which had recently calved, distributed into simple, random samples, under the same feeding conditions of corn silage and concentrate with 20% crude protein. The three-marker method was used (LIPE, titanium dioxide, and iADF) to estimate the individual intake and digestibility of the nutrients for the cows in group. The mathematical model used to establish the lactation curves was: Y = at(b)e(-ct) by Wood (Nature 216:164-165, 1967). The statistical analyses for the nutrient intake and digestibility, as well as parameters of metabolic efficiency, were performed using multiple linear regression (α = 5%). No effect (P > 0.05) of genetic group was observed for any of the variables studied. The intake and digestibility of the nutrients and the microbial nitrogen presented quadratic curves as a function of the lactation period (P < 0.05). The HGU cows exhibited an accumulated milk production of 4,946.81 kg at 305 days, whereas the HGI cows produced 4,821.78 kg. The HNE cows displayed inferior performance, with a production of 3,674.98 kg. It was concluded that, in confinement, F1 cows from different genetic groups do not exhibit different intake, digestibility, or metabolic efficiency. The HGU and HGI cows have greater cumulative production at 305 days.     

Effects of Genotype,Feed Type and Lactational Stage on the Time Budget of Dairy Cows

The effects of genetic merit, feeding system and stage of lactation on the time budget of dairy cows were studied. Sixteen loose-housed Holstein Friesian cows (parity=1) of either high or UK average genetic merit were fed one of two complete mixed silage-based diets (high and low concentrate inclusion). Five-minute time samples were carried out on 11 days across lactation between morning feeding and afternoon milking. Cows fed the low concentrate diet spent more time eating, more time ruminating whilst standing, and less time lying, especially inactive. Genetic line did not affect the time budget of the cows. Standing and rumination decreased with time from calving, whereas the duration of lying bouts increased during the first 3 months of lactation. In this study the time budget of dairy cows was influenced by food roughage inclusion, and not by the production level of the animal.     

Production efficiency and telomere length of the cloned pigs following serial somatic cell nuclear transfer

The aim of the present study was to examine the production efficiency of cloned pigs by serial somatic cell nuclear transfer (SCNT) and to ascertain any changes in the telomere lengths of multiple generations of pigs. Using fetal fibroblasts as the starting nuclear donor cells, porcine salivary gland progenitor cells were collected from the resultant first-generation cloned pigs to successively produce second- and third-generation clones, with no significant differences in production efficiency, which ranged from 1.4% (2/140) to 3.3% (13/391) among the 3 generations. The average telomere lengths (terminal restriction fragment values) for the first, second and third generation clones were 16.3, 18.1 and 20.5 kb, respectively, and were comparable to those in age-matched controls. These findings suggest that third-generation cloned pigs can be produced by serial somatic cell cloning without compromising production efficiency and that the telomere lengths of cloned pigs from the first to third generations are normal.     

Factors affecting the transfer of immunoglobulin G1 into the milk of Holstein cows

Immunoglobulin (Ig) G1 concentrations in milk from Holstein cows was measured to determine if transfer and concentration was influenced by production factors (lactation number, stage of lactation, daily milk production), milk composition (milk fat, protein, lactose, and total solids content) or by serum IgG1 concentration. Two hundred and ninety-nine Chinese Holstein cows were randomly selected from four herds containing a total of more than 1600 lactating animals. The concentration of IgG1 in the milk and serum was determined by ELISA.Milk IgG1 concentrations varied between 0.030 and 0.614 mg/mL and significantly correlated with lactation number, stage of lactation, daily milk production and somatic cell count. The IgG1 mass was found to highly correlate with lactation number, stage of lactation, daily milk production and milk protein content. Lactation number had the highest positive direct relationship with IgG1 concentration.     

影响荷斯坦牛产奶量差的因素分析

产奶量差是奶牛个体同一胎次前后2个泌乳月产奶量的差值,可准确反映产奶量变化情况。为探究影响荷斯坦牛产奶量差的因素,本研究收集整理了江苏省某大型奶牛场2015-2018年55 193头次荷斯坦牛生产性能测定记录,并利用最小二乘法分析胎次、测定年度、产犊季节、泌乳月4个因素对荷斯坦牛产奶量差的影响。结果显示:胎次、测定年度、产犊季节、泌乳月及其交互作用对产奶量和产奶量差均有极显著影响(P<0.01)。其中,不同胎次、测定年度和产犊季节的荷斯坦牛总产奶量在第2个泌乳月增加最快,产奶量差为8.79kg;头胎第6泌乳月、二胎第7泌乳月和三胎及以上第6泌乳月产奶量下降最大,产奶量差分别为-2.86kg、-4.59kg和-6.13kg;2015-2018年4个测定年度中,第10、第6、第7、第6泌乳月产奶量降低最大,产奶量差分别为-2.26kg、-4.98kg、-4.44kg和-3.56kg;春季产犊的荷斯坦牛第4泌乳月、夏季产犊的荷斯坦牛第12泌乳月、秋季产犊的荷斯坦牛第9泌乳月、冬季产犊的荷斯坦牛第6或第7泌乳月产奶量下降最大,产奶量差分别是-4.34kg、-4.71kg、-5.36kg和-5.40kg。此外,产奶量差与泌乳持续力呈极显著正相关(P<0.01),与产犊间隔呈显著正相关(P<0.05),与泌乳天数、高峰奶、乳脂率、蛋白率、305d产奶量呈极显著负相关(P<0.01)。因此,产奶量差作为衡量奶牛产奶量变化的指标之一,可为牧场进行科学饲养管理提供参考。