Katrin Bauer, Mansour Eghbali, Thomas Hartinger, Andreas Haselmann, Birgit Fuerst-Waltl, Werner Zollitsch, Qendrim Zebeli, Wilhelm Knaus
{"title":"减小草甸干草粒径对奶牛采食量、生产性能和全肠道养分表观消化率的影响","authors":"Katrin Bauer, Mansour Eghbali, Thomas Hartinger, Andreas Haselmann, Birgit Fuerst-Waltl, Werner Zollitsch, Qendrim Zebeli, Wilhelm Knaus","doi":"10.1080/1745039X.2023.2284527","DOIUrl":null,"url":null,"abstract":"<p><p>Forage-based diets are encouraged in organic dairy cattle production as this can increase the net human food supply, but their voluminous nature can limit dry matter intake (DMI) and performance. This study investigates the effects of a substantial particle size reduction of hay on dairy cows' feed intake, performance, and body characteristics, as well as on apparent total tract digestibility (ATTD). Eighteen lactating Holstein cows were allocated to two balanced feeding groups. The control group received long stem hay with a conventional particle size (CON), the experimental group received chopped hay (RED). Both groups were supplemented with concentrates (3.6 kg/d, DM basis). After 14 adaptation days, data were collected for 20 consecutive days. A covariate period of 21 days preceded the experimental feeding period. Particles retained on the 19-, 8- and 4-mm screens and on the pan of the Penn State Particle Separator accounted for 21%, 20%, 20% and 39% of the RED hay. CON hay consisted of 72% large particles, followed by 8%, 7% and 13% retained on the other screens. Average DMI levels of cows in the CON group reached 20.8 kg/d, with a nonsignificant increase (+1.05 kg/d) in the RED group (<i>p</i> = 0.28). Intakes of both NFC (+0.65 kg/d, <i>p =</i> 0.01) and CP (+0.28 kg/d, <i>p =</i> 0.05) were significantly greater in the RED group, resulting in a slightly increased milk yield (+0.8 kg energy corrected milk/d) (<i>p</i> = 0.45), likely because the ATTD decreased significantly when feeding RED hay. No impact was observed on energy balance (103.7 vs 103.9%, <i>p</i> = 0.95), feed conversion efficiency (kg ECM/kg DMI), or N use efficiency. Overall, the results indicate increases in intake of NFC and CP in the RED group when feeding a hay-based (>83%, DM basis) diet, but also a decrease in nutrient digestibility, likely due to increased passage rate, potentially because of the high fraction of hay particles < 4 mm. In conclusion, hay-based rations with a lower proportion of fine particles should be tested to exploit the potential of particle size reduction in terms of improving hay use efficiency.</p>","PeriodicalId":8157,"journal":{"name":"Archives of Animal Nutrition","volume":" ","pages":"452-467"},"PeriodicalIF":2.0000,"publicationDate":"2023-12-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Effects of particle size reduction of meadow hay on feed intake, performance, and apparent total tract nutrient digestibility in dairy cows.\",\"authors\":\"Katrin Bauer, Mansour Eghbali, Thomas Hartinger, Andreas Haselmann, Birgit Fuerst-Waltl, Werner Zollitsch, Qendrim Zebeli, Wilhelm Knaus\",\"doi\":\"10.1080/1745039X.2023.2284527\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Forage-based diets are encouraged in organic dairy cattle production as this can increase the net human food supply, but their voluminous nature can limit dry matter intake (DMI) and performance. This study investigates the effects of a substantial particle size reduction of hay on dairy cows' feed intake, performance, and body characteristics, as well as on apparent total tract digestibility (ATTD). Eighteen lactating Holstein cows were allocated to two balanced feeding groups. The control group received long stem hay with a conventional particle size (CON), the experimental group received chopped hay (RED). Both groups were supplemented with concentrates (3.6 kg/d, DM basis). After 14 adaptation days, data were collected for 20 consecutive days. A covariate period of 21 days preceded the experimental feeding period. Particles retained on the 19-, 8- and 4-mm screens and on the pan of the Penn State Particle Separator accounted for 21%, 20%, 20% and 39% of the RED hay. CON hay consisted of 72% large particles, followed by 8%, 7% and 13% retained on the other screens. Average DMI levels of cows in the CON group reached 20.8 kg/d, with a nonsignificant increase (+1.05 kg/d) in the RED group (<i>p</i> = 0.28). Intakes of both NFC (+0.65 kg/d, <i>p =</i> 0.01) and CP (+0.28 kg/d, <i>p =</i> 0.05) were significantly greater in the RED group, resulting in a slightly increased milk yield (+0.8 kg energy corrected milk/d) (<i>p</i> = 0.45), likely because the ATTD decreased significantly when feeding RED hay. No impact was observed on energy balance (103.7 vs 103.9%, <i>p</i> = 0.95), feed conversion efficiency (kg ECM/kg DMI), or N use efficiency. Overall, the results indicate increases in intake of NFC and CP in the RED group when feeding a hay-based (>83%, DM basis) diet, but also a decrease in nutrient digestibility, likely due to increased passage rate, potentially because of the high fraction of hay particles < 4 mm. 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引用次数: 0
摘要
有机奶牛生产中鼓励使用草料型日粮,因为这可以增加人类的净食物供应,但它们的体积性质会限制干物质摄入量(DMI)和生产性能。本研究探讨了大量减少干草粒径对奶牛采食量、生产性能和身体特征以及表观全道消化率(ATTD)的影响。将18头泌乳荷斯坦奶牛分为2个平衡饲喂组。对照组饲喂常规粒径长秆干草(CON),试验组饲喂切碎干草(RED)。两组均添加精料(3.6 kg/d, DM基础)。预试14 d后,连续20 d采集数据。协变量期在试饲期前21 d。残留在19毫米、8毫米和4毫米筛网上的颗粒以及宾夕法尼亚州立大学颗粒分离器上的颗粒分别占RED干草的21%、20%、20%和39%。CON干草的大颗粒含量为72%,其他屏幕上的大颗粒含量分别为8%、7%和13%。CON组奶牛DMI平均水平达到20.8 kg/d, RED组奶牛DMI水平无显著提高(+1.05 kg/d) (p = 0.28)。红色组NFC (+0.65 kg/d, p = 0.01)和CP (+0.28 kg/d, p = 0.05)的采食量均显著高于红色组,导致产奶量略有增加(+0.8 kg能量校正乳/d) (p = 0.45),这可能是由于饲喂红色干草显著降低了ATTD。对能量平衡(103.7 vs 103.9%, p = 0.95)、饲料转化效率(kg ECM/kg DMI)和氮利用效率均无影响。总体而言,结果表明,饲喂以干草为基础(>83%,DM为基础)的饲粮时,RED组的NFC和CP摄入量增加,但营养物质消化率降低,可能是由于传代率增加,可能是由于干草颗粒的高比例
Effects of particle size reduction of meadow hay on feed intake, performance, and apparent total tract nutrient digestibility in dairy cows.
Forage-based diets are encouraged in organic dairy cattle production as this can increase the net human food supply, but their voluminous nature can limit dry matter intake (DMI) and performance. This study investigates the effects of a substantial particle size reduction of hay on dairy cows' feed intake, performance, and body characteristics, as well as on apparent total tract digestibility (ATTD). Eighteen lactating Holstein cows were allocated to two balanced feeding groups. The control group received long stem hay with a conventional particle size (CON), the experimental group received chopped hay (RED). Both groups were supplemented with concentrates (3.6 kg/d, DM basis). After 14 adaptation days, data were collected for 20 consecutive days. A covariate period of 21 days preceded the experimental feeding period. Particles retained on the 19-, 8- and 4-mm screens and on the pan of the Penn State Particle Separator accounted for 21%, 20%, 20% and 39% of the RED hay. CON hay consisted of 72% large particles, followed by 8%, 7% and 13% retained on the other screens. Average DMI levels of cows in the CON group reached 20.8 kg/d, with a nonsignificant increase (+1.05 kg/d) in the RED group (p = 0.28). Intakes of both NFC (+0.65 kg/d, p = 0.01) and CP (+0.28 kg/d, p = 0.05) were significantly greater in the RED group, resulting in a slightly increased milk yield (+0.8 kg energy corrected milk/d) (p = 0.45), likely because the ATTD decreased significantly when feeding RED hay. No impact was observed on energy balance (103.7 vs 103.9%, p = 0.95), feed conversion efficiency (kg ECM/kg DMI), or N use efficiency. Overall, the results indicate increases in intake of NFC and CP in the RED group when feeding a hay-based (>83%, DM basis) diet, but also a decrease in nutrient digestibility, likely due to increased passage rate, potentially because of the high fraction of hay particles < 4 mm. In conclusion, hay-based rations with a lower proportion of fine particles should be tested to exploit the potential of particle size reduction in terms of improving hay use efficiency.
期刊介绍:
Archives of Animal Nutrition is an international journal covering the biochemical and physiological basis of animal nutrition. Emphasis is laid on original papers on protein and amino acid metabolism, energy transformation, mineral metabolism, vitamin metabolism, nutritional effects on intestinal and body functions in combination with performance criteria, respectively. It furthermore deals with recent developments in practical animal feeding, feedstuff theory, mode of action of feed additives, feedstuff preservation and feedstuff processing. The spectrum covers all relevant animal species including food producing and companion animals, but not aquatic species.
Seldom can priority be given to papers covering more descriptive studies, even if they may be interesting and technically sound or of impact for animal production, or for topics of relevance for only particular regional conditions.