Morphological and productivity responses of Buffel grass (Cenchrus ciliaris) and Guinea grass (Panicum maximum) ecotypes to simulated grazing in a semi-arid environment

Grassland Research Pub Date : 2023-01-02 DOI:10.1002/glr2.12033

Bosco Kidake Kisambo, Oliver V. Wasonga, Oscar K. Koech, George N. Karuku

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引用次数: 1

Abstract

Background

Livestock production is an economically significant activity in grassland-based production systems with herbivory, a critical process in modifying plant structure and regulating biomass dynamics in these areas.

Methods

A grazing simulation experiment was undertaken in a semi-arid environment in Kenya to determine the effects of clipping frequency and intensity on the morphology and productivity of Cenchrus ciliaris and Panicum maximum grass ecotypes. The ecotypes were clipped at different frequencies (every 2, 4, and 12 weeks) and different intensities (5, 10, and 15 cm clipping heights). The morphological responses of the grass ecotypes and biomass yields were determined.

Results

The grass ecotypes showed significantly (p < 0.05) varied responses to cutting frequency and intensity. Morphological parameters, tillering, and biomass production were all affected by clipping frequency and intensity. The highest dry matter (DM) yields were recorded under low frequency (LF) clipping, followed by moderate frequency (MF) clipping and high frequency (HF) clipping. LF clipping in C. ciliaris ecotype Kilifi was 20% and 31% more compared to MF and HF clipping. No significant difference in yields was found by cutting the C. ciliaris ecotype Magadi at 4- and 12-week intervals, even though clipping at 2-week intervals cumulatively yielded less biomass. There was a biomass yield reduction in P. maximum ecotype Taveta of 23% and 25% for MF and HF clipping, respectively, while for ecotype Isinya, the reduction was 13% and 15% for MF and HF, respectively. Clipping intensity had a significant (p < 0.05) effect on cumulative yields in C. ciliaris ecotypes, but not P. maximum. Ecotypic differences were apparent in both C. ciliaris and P. maximum ecotype DM yields.

Conclusions

The results in this study suggest that clipping range grass ecotypes less frequently (4- and 12-week intervals) and at 10 and 15 cm stubble heights results in higher biomass yields. Generally, LF and MF grazing and cutting strategies are advantageous for semi-arid lands. Combinations of frequent and high-intensity utilization grazing strategies should be discouraged as they are likely to lead to reduced biomass yields and negative effects both on grasses and on the environment.

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半干旱环境下灰羊草和几内亚草生态型对模拟放牧的形态和生产力响应

畜牧生产是草地生产系统中具有重要经济意义的活动，是改变这些地区植物结构和调节生物量动态的关键过程。方法在肯尼亚半干旱环境下进行模拟放牧试验，研究不同放牧频率和强度对毛帚草和大头草生态型形态和生产力的影响。以不同频率(每2周、4周和12周)和不同强度(5、10和15 cm剪枝高度)剪枝生态型。测定了草的生态类型和生物量的形态响应。结果禾草生态型对刈割频率和刈割强度的响应差异显著(p < 0.05)。刈割频率和刈割强度均影响植株的形态参数、分蘖和生物量。干物质产量以低频刈割最高，其次为中频刈割和高频刈割。与中频和高频剪接相比，基利菲生态型纤毛蝗的低频剪接率分别高出20%和31%。每隔4周和12周进行一次采伐对产量没有显著影响，尽管每隔2周采伐的累积生物量较少。在MF和HF剪切下，最大p生态型Taveta的生物量产量分别降低23%和25%，而在MF和HF剪切下，最大p生态型Isinya的生物量产量分别降低13%和15%。剪断强度对毛菖蒲生态型的累积产量有显著影响(p < 0.05)，但对毛菖蒲的累积产量影响不显著。生态型差异在毛菖蒲和毛菖蒲生态型DM产量上均有明显差异。结论剪草频率较低(4周和12周间隔)，茬高10和15 cm可获得较高的生物量产量。一般来说，半干旱区采用LF和MF放牧和采伐策略较为有利。应不鼓励频繁和高强度利用放牧战略的结合，因为它们可能导致生物量产量下降，并对草和环境产生负面影响。

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