期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

温带常见牧草中饱和烷烃浓度模式研究 被引量:6

A study on the N-alkane patterns of several temperate grass species
下载PDF
导出
摘要 利用气相色谱仪测定了7种温带常见牧草表皮蜡质层饱和烷烃(N-alkane)的浓度,对同一牧草种不同生育期的饱和烷烃模式进行方差分析。结果表明,不同生育期牧草饱和烷烃浓度模式存在显著的差异。在生长季节,绝大多数牧草的C29或C31的浓度超过50μg/g,可以应用双烷烃法来估测放牧家畜的采食量。主成分分析和方差分析的结果表明,除了老芒麦与披碱草或羊草在9月份出现重叠外,其它牧草的饱和烷烃特征模式在各取样时间均出现显著差异。因此,在温带草原上,应用饱和烷烃技术估测放牧家畜的采食成分是可行的。 N-alkane concentrations in the cuticular wax of seven temperate grass species were assayed by gas chromatography. One-way ANOVA was used to examine the effect of sampling time on the concentrations of individual N-alkanes in the same species. The results showed that the effect of growth stage on the N-alkane concentrations of the forage species tested was significant. The concentrations of C29 or C31 in the forage species studied all exceeded 50μg/g DM, indicating they could be used to estimate the intake of grazing animals. The results of principal component and one-way ANOVA indicated that it should be possible to use alkane tech- niques to estimate dietary composition of grazing animals in the grasslands of the north temperate zone of China. At all sampling times there were significant differences (P〈0.05)in terms of the alkane patterns, between the grass species except for those between Elymus sibiricum and Elymus dahuricus or Leymus chinensis when sampled in September 2004.
作者 林立军 张英俊
机构地区 中国农业大学草地研究所
出处 《草业学报》 CSCD 2006年第4期115-121,共7页 Acta Prataculturae Sinica
基金 国家自然科学基金项目--用链烷技术确定放牧家畜采食及其与草原合理利用关系(30371019)资助
关键词 温带 牧草 饱和烷烃 食性 temperate forage N-alkane dietary composition
分类号 S54 [农业科学—作物学]
  • 相关文献

参考文献17

  • 1Mayes R W, Lamb C S, Colgrove P M. The use of dosed and herbage N-alkanes as markers for the determination of herbage intake[J]. Journal Agricultural Science, Cambridge, 1986, 107:161-170.
  • 2Zhang Y J, Togamura Y, Otsuki K. Study on the N-alkane pattens in some grasses and factors affecting the N-alkane patterns[J]. Journal of Agricultural Science, Cambridge, 2004, 142: 469-475.
  • 3Zhang Y J. Introduction of plant wax alkane technique[C]. Beijing:Proceedings of China International Grassland Conferences,2002.77-81.
  • 4Mayes R W,Lamb C S. The possible use of N-alkanes in herbage as indigestible faecal markers[J]. Proceedings of the Nutrition Society, 1984, 43:39.
  • 5Tulloch A P. Chemistry of waxes of higher plants[A]. In: Kolattu kudy P E. Chemistry and Biochemistry of Natural Waxes[M]. Amsterdam, Holland:Elsevier, 1976. 235-287.
  • 6Dove H, Mayes R W. The use of plant wax alkanes as marker substances in studies of the nutrition of herbivores: a review[J]. Australian Journal of Agricultural Research, 1991, 42: 912-952.
  • 7Dove H, Mayes R W, Freer M. Effects of species, plant part, and age on the N-alkane concentrations in the cuticular wax of pasture plants[J]. Australian Journal of Agricultural Research, 1996, 42: 1333-1347.
  • 8Zhang Y J, Togamura Y, Akiyama F, et al. Differences in the N-alkane concentration of four species of wild plants in Japan[J]. Grassland Science, 2002, 48. 50-52.
  • 9Chen W, Lefroy R D B, Scott J M, et al. Field variations in alkane signatures among plant species in 'degraded'and perennial pastures on the Northern Tablelands of New South Wales[J]. Australian Journal of Agricultural Research, 1998, 49: 263-268.
  • 10Smith D G, Mayes R W, Raats J G. Effect of species, plant part, and season of harvest on N-alkane concentrations in the cuticular wax of common rangeland grasses from southern Africa[J]. Australian Journal of Agricultural Research, 2001, 52:875-882.

二级参考文献221

  • 1汪诗平.几种草食动物日粮植物组成研究技术和方法的比较[J].草业学报,1995,4(3):8-16. 被引量:15
  • 2INRA. Ruminant Nutrition: Recommended Allowances and Feed Tables[M]. Paris,France: INRA and John Libbey Eurotext, 1989.
  • 3Wahed R A, Owen E. Comparison of sheep and goats under stall-feeding conditions: Roughage intake and selection[J].Animal Production, 1986,42 : 89-95.
  • 4Wahed R A, Owen E, Naate M, et al. Feeding straw to small ruminants: Effect of amount offered on intake and selection of barley straw by goats and sheep[J]. Animal Production, 1990,51:283-289.
  • 5National Research Council. Predicting Feed Intake of Food-Producing Animals[M]. Washington D.C. , USA: National Academy of Sciences, 1986.
  • 6Varga O A, Harpster H W. Gut size and rate of passage[A]. In:Symposium: Intake by Feedlot Cattle[M]. Stillwater,Oklahoma, USA: Oklahoma State University,1995.85-95.
  • 7Weston R H, Poppi D P. Comparative aspects of food intake[A]. In: Hacker J B, Ternouth J H. The Nutrition of Herbivores[M]. Sydney, Australia : Academic Press, 1987.133-161.
  • 8Van Es A J H. Which information on feeds is most needed in practical livestock feeding? [A]. In:Robards G E, Packham R G. Feed Information and Animal Production[M]. Farnham Royal, Slough, UK: Commonwealth Agricultural Bureaux and Feed and International Network of Feed Information Centres, 1983. 115-118.
  • 9McDonald P, Edwards R A, Greenhalgh J F D, et al. Animal Nutrition[M]. Fifth Edition. Essex, UK: Longman Scientific and Technical, 1995.
  • 10Poppi D P, Hughes T P, L'Huillier P J. Intake of pasture by grazing ruminants[A]. In: Nicol A M. Livestock Feeding on Pasture[M]. Hamilton, New Zealand : New Zealand Society of Animal Production,1987. 55-63.

共引文献74

同被引文献126

引证文献6

二级引证文献15

草业学报
2006年 第4期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部