Hurtaud C, Bernard L, Rau A, Cebo C
PEGASE, INRAE, L'Institut Agro, 35590, Saint-Gilles, France.
Université Clermont Auvergne, INRAE, VetAgro Sup, UMR Herbivores, 63122 Saint-Genes-Champanelle, France.
J Dairy Sci. 2025 Aug;108(8):8959-8970. doi: 10.3168/jds.2025-26537. Epub 2025 Jun 11.
Lipolysis is an ongoing issue for the French dairy industry that must be minimized. Milk lipolysis is defined as the hydrolysis of triglycerides, the major component of milk fat, resulting in the release of short-chain fatty acids responsible for rancid flavor and partial glycerides that impair functional properties such as foaming and creaming abilities. Milk lipolysis is a complex phenomenon that depends on both animal parameters and farming factors. Milk spontaneous lipolysis is higher in milk from automatic milking systems, which could be due to the number and intervals of milking, as lipolysis is lower in the case of a single daily milking. In addition, considerable interindividual variability in milk lipolysis has been observed, with some dairy cows being highly susceptible or nonsusceptible to lipolysis. The objective of this study was therefore to evaluate the impact on spontaneous milk lipolysis of different milking frequencies (i.e., 1 [morning or evening], 2, or 3 milkings per day) with evenly spaced milking intervals while accounting for individual susceptibility to lipolysis. To achieve this goal, 32 primiparous and multiparous dairy cows in mid-lactation were conducted using a continuous design with milking frequency as the main factor for a period of 3 wk. Four treatments were applied on 4 groups of cows: 1 milking per day at 6:00 a.m. (1M6am), 1 milking per day at 6:00 p.m. (1M6pm), 2 milkings per day at 6:00 a.m. and 6:00 p.m. (2M), and 3 milkings per day at 6:00 a.m., 2:00 p.m., and 10:00 p.m. (3M). In each group, there were 4 susceptible (SUS) dairy cows (lipolysis of SUS >0.70 mEq/100 g fat) and 4 nonsusceptible (NONSUS) dairy cows (lipolysis of NONSUS <0.70 mEq/100 g fat). As expected, 2M and 3M milkings increased milk yield by up to 30% compared with once-a-day milking. We confirmed that milk spontaneous lipolysis was influenced by increased milking frequency: compared with 2M, we observed more lipolysis with 3M and less with 1M. Regardless of the lipolysis susceptibility, the 1M6am and 1M6pm treatments caused a similar reduction in lipolysis. On the other hand, lipolysis was significantly higher in SUS cows with 2M and 3M treatments. In conclusion, although increased milking frequency results in greater milk yield, our results indicate that it can adversely impact milk quality with regard to free fatty acid concentrations. Conversely, although once-a-day morning or evening milking lead to decreased milk yield, they significantly reduced milk lipolysis regardless of a cow's susceptibility to lipolysis.
脂肪分解是法国乳制品行业一直存在的问题,必须将其降至最低限度。乳脂肪分解被定义为甘油三酯(乳脂肪的主要成分)的水解,导致产生负责酸败风味的短链脂肪酸和损害诸如起泡和乳脂上浮能力等功能特性的部分甘油酯。乳脂肪分解是一个复杂的现象,它取决于动物参数和养殖因素。自动挤奶系统采集的牛奶中乳自发脂肪分解程度更高,这可能是由于挤奶次数和间隔时间所致,因为每日单次挤奶时脂肪分解程度较低。此外,已观察到乳脂肪分解存在相当大的个体间差异,一些奶牛对脂肪分解高度敏感或不敏感。因此,本研究的目的是评估不同挤奶频率(即每天1次[早上或晚上]、2次或3次)且挤奶间隔均匀的情况下对乳自发脂肪分解的影响,同时考虑个体对脂肪分解的敏感性。为实现这一目标,对32头处于泌乳中期的初产和经产奶牛采用连续设计,以挤奶频率作为主要因素,为期3周。对4组奶牛进行了4种处理:每天早上6:00挤奶1次(1M6am)、每天晚上6:00挤奶1次(1M6pm)、每天早上6:00和晚上6:00挤奶2次(2M)以及每天早上6:00、下午2:00和晚上10:00挤奶3次(3M)。每组中有4头敏感(SUS)奶牛(SUS的脂肪分解>0.70 mEq/100 g脂肪)和4头不敏感(NONSUS)奶牛(NONSUS的脂肪分解<0.70 mEq/100 g脂肪)。正如预期的那样,与每天挤奶1次相比,2M和3M挤奶使产奶量提高了30%。我们证实,乳自发脂肪分解受挤奶频率增加的影响:与2M相比,我们观察到3M时脂肪分解更多,1M时更少。无论脂肪分解敏感性如何,1M6am和1M6pm处理导致的脂肪分解减少程度相似。另一方面,2M和3M处理的SUS奶牛的脂肪分解明显更高。总之,尽管挤奶频率增加会带来更高的产奶量,但我们的结果表明,就游离脂肪酸浓度而言,这可能会对牛奶质量产生不利影响。相反,尽管每天早晚各挤奶1次会导致产奶量下降,但无论奶牛对脂肪分解的敏感性如何,它们都能显著降低乳脂肪分解。
