Effect of short-term grazing exclusion on herbage species composition, dry matter productivity, and chemical composition of subtropical grasslands

IF 1.8 Q2 AGRICULTURE, MULTIDISCIPLINARY Open Agriculture Pub Date : 2023-01-01 DOI:10.1515/opag-2022-0223
S. Barsila, Mahendra Singh Dhami, Bijay Kumar Shrestha, Luma Nidhi Pandey
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Abstract

Abstract Grazing exclusion (GE) is a useful management technique for restoring degraded grasslands. The herbage mass productivity and chemical makeup in the grazing-excluded subtropical grassland environment has, however, received little attention. A subtropical riverine grassland was selected to determine the effect of GE on herbage mass productivity and chemical composition in Nepal. In three successive harvesting times from September to November 2020, the herbage was sampled along the six randomly selected transects of 100 m length and at two treatments (GA: Grazing-allowed and GE: Grazing-excluded plots) at three different times of harvest from a 1,000-ha grassland. A total of 108 herbage cut samples were collected from the individual 1 m × 1 m quadrats at the three harvests, respectively, from the GA and GE plots. Fences were used to maintain the GE plots to avoid grazing to prevent the vegetation altered by grazing. Day before herbage sampling, the functional groups, cover-abundance within the sampling quadrats were investigated. By cutting the fresh herbage 5 cm above the ground and subjecting it to oven drying for laboratory examination, the herbage mass productivity within each quadrat was measured. Using established laboratory procedures, the chemical analysis of herbage was evaluated for its proximate, fibre, and mineral contents. The results of the study demonstrated that GE significantly increased grass species than other-forbs, other-graminoids, and legumes, respectively, and increased dry matter productivity, which could be seen by an increase in leaf stem ratio, tiller productivity, increased coarseness (fibrous content), total ash, calcium (Ca), and phosphorus (P), but with a decreased nonstructural carbohydrate, and the concentrations of ether extract and crude protein. Research results also confirmed that GE increases herbages’ fibrousness and productivity, though the herbage quality, intake, and digestibility decline. It further demonstrates that grazing is a crucial biological component for maintaining pasture quality in subtropical grasslands and that managing grasslands through livestock grazing would make grasslands more stable and nutrient-enriched. The findings of this study can be useful in the long-term monitoring of grazing livestock in the subtropical grasslands when considering further investigations with the multiple factors in future.
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短期禁牧对亚热带草原牧草物种组成、干物质生产力和化学成分的影响
禁牧是恢复退化草地的一项有效管理技术。然而,对亚热带草地放牧环境下牧草质量生产力和化学组成的研究却很少。在尼泊尔选取了一片亚热带河流草地,研究了转基因对牧草质量生产力和化学成分的影响。在2020年9月至11月的三个连续收获期,在1000公顷草地上随机选择6个长度为100 m的样带,在三个不同的收获时间进行两种处理(GA:允许放牧和GE:不允许放牧)的牧草取样。三次采收时,在遗传和转基因样地的1 m × 1 m样地共采集108份割草样品。采用围栏保护转基因样地避免放牧,防止放牧对植被的改变。采样前一天,对样方内的功能基团、覆盖度进行调查。将新鲜牧草在离地5cm处割下,经烘箱烘干后进行实验室检验,测定每个样方内牧草的质量生产率。利用已建立的实验室程序,对牧草的化学分析进行了评估,包括其近似物、纤维和矿物质含量。结果表明,与其他草本植物、其他禾草类植物和豆科植物相比,转基因显著增加了禾草种类,并显著提高了干物质生产力,表现为叶茎比、分蘖生产力、粗度(纤维含量)、总灰分、钙(Ca)和磷(P)增加,但非结构碳水化合物、粗脂肪和粗蛋白质浓度降低。研究结果还证实,转基因提高了牧草的纤维性和生产力,但降低了牧草的品质、采食量和消化率。研究进一步表明,放牧是维持亚热带草原牧草质量的重要生物成分,通过放牧对草原进行管理可以使草原更加稳定和营养丰富。本研究结果可为亚热带草原放牧牲畜的长期监测提供参考,并可在今后的多因素调查中进一步研究。
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来源期刊
Open Agriculture
Open Agriculture AGRICULTURE, MULTIDISCIPLINARY-
CiteScore
3.80
自引率
4.30%
发文量
61
审稿时长
9 weeks
期刊介绍: Open Agriculture is an open access journal that publishes original articles reflecting the latest achievements on agro-ecology, soil science, plant science, horticulture, forestry, wood technology, zootechnics and veterinary medicine, entomology, aquaculture, hydrology, food science, agricultural economics, agricultural engineering, climate-based agriculture, amelioration, social sciences in agriculuture, smart farming technologies, farm management.
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