太阳辐射对小麦饲料膨化潜力的影响

IF 2.1 Q2 PLANT SCIENCES

Acta Agrobotanica Pub Date : 2018-12-31 DOI:10.5586/AA.1754

D. Malinowski, W. E. Pinchak, D. Pitta, B. Min

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引用次数: 0

摘要

在美国南部大平原放牧冬小麦（Triticum aestivum L.）的牛（Bos taurus L.）中，霜胀是一种严重的消化系统疾病。小麦植物代谢可能是导致霜胀发生的因素之一。在2004-2007年期间进行的一系列实验中，我们评估了太阳辐射强度（环境，100%与降低，25%）、短时间（24小时与48小时）暴露于太阳辐射的影响，以及饲料津贴（高，18公斤与低，6公斤DM/100公斤体重）对小麦饲料“Cutter”的酚类化合物季节浓度和泡沫强度（膨胀潜力的衡量标准）的影响。与环境太阳辐射相比，减少的太阳辐射降低了总酚浓度并增加了泡沫强度。在确定酚类浓度时，饲料津贴与太阳辐射和短期暴露处理相互作用；然而，在生长季节和生长季节之间，这种影响是不一致的。酚类化合物的浓度对天气模式的突然变化（经过冷锋）反应迅速，这些变化通常与太阳辐射强度和温度的显著降低有关。太阳辐射强度与总酚浓度呈正相关，并解释了总酚浓度变化的62%至72%。温度和总酚浓度之间的相关性因生长季节而异，并解释了总酚浓度变化的9-17%。结果表明，小麦饲料中酚类物质的含量与太阳辐射有关。在冬季天气模式突然变化时，酚类物质浓度的降低和由此产生的膨胀潜力的增加尤其明显。

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Solar radiation affects bloat potential of wheat forage

Frothy bloat is a serious digestive disorder in cattle (Bos taurus L.) grazing winter wheat (Triticum aestivum L.) pastures in the Southern Great Plains of the USA. Wheat plant metabolism may be one of the factors involved in bloat occurrence. In a series of experiments conducted during 2004–2007, we evaluated the effects of solar radiation intensity (ambient, 100% vs. reduced, 25%), a short-time (24 h vs. 48 h) exposure to solar radiation, and forage allowance (high, 18 kg vs. low, 6 kg DM/100 kg body weight) on seasonal concentration of phenolic compounds and foam strength (a measure of bloat potential) of wheat forage ‘Cutter’. Reduced solar radiation decreased total phenolic concentration and increased foam strength when compared to ambient solar radiation. Forage allowance interacted with solar radiation and short-term exposure treatments in determining phenolic concentrations; however, the effects were inconsistent during and among growing seasons. Concentration of phenolic compounds responded rapidly to sudden changes in weather patterns (passing cold fronts) that were usually associated with significant decrease in solar radiation intensity and temperature. Solar radiation intensity was positively correlated with total phenolic concentration and explained 62% to 72% of the variation in total phenolic concentration. Correlation between temperature and total phenolic concentration varied among growing seasons and explained 9–17% of the variation in total phenolic concentration. Results suggest that phenolic concentration in wheat forage is correlated with solar radiation. The decrease in phenolic concentration and resulting increase of bloat potential are especially pronounced during sudden changes in weather patterns during winter.

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来源期刊

Acta Agrobotanica Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

2.90

自引率

25.00%

发文量

审稿时长

16 weeks

期刊介绍： The Acta Agrobotanica publishes mainly significant, original research papers presenting the results new to the biology of cultivable or wild plants accompanying crops. The submissions dedicated particularly to flora and phytocenoses of anthropogenically transformed areas, bee pastures, nectariferous and polleniferous taxa, plant-pollinator relationships, urban and rural habitats for entomofauna, cultivated plants, weeds, aerobiology, plant pathogens and parasites are encouraged and accepted. Besides the original research papers, authors may submit short communications and reviews. The journal also publishes the invited papers in case of new developments in plant science. All submissions must be written in good English, which is solely a responsibility of the authors.