Microtopography causes small-scale variation in harvest and forage quality of high-yielding silage grassland in northern Germany

Angelika Mroncz, Johannes Isselstein, Martin Komainda, Christoph Leuschner
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Abstract

Background

Local sward dieback, especially in grasslands on peat soil, in response to the extreme 2018/2019 drought demonstrates climate vulnerability of intensive grasslands in northern Central Europe.

Methods

We explore the influence of microtopography, that is, the within-field mosaic of depressions and elevated patches, on soil volumetric moisture content, standing biomass and biomass crude protein (CP) and fibre content in intensively managed grassland on peat soil in a moist year (2021) and a dry year (2022) for quantifying small-scale spatial heterogeneity within a field.

Results

We found high within-field variation in soil moisture, biomass and forage quality and a moisture dependence of productivity that was stronger in the dry year. CP ranged from 10% to 25% within a field, being lower in moist depressions than elevated patches in the wet (but not in the dry) summer.

Conclusions

The moister depressions help to limit the overall productivity decline in dry summers, whereas, in moist summers, the higher dry patches produce more protein-rich forage than the depressions, where productivity is higher but quality is lower. We recommend adapting grassland management to this heterogeneity through spatially differentiated management regimes in order to better cope with an increasingly drier and more variable climate.

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微地形导致德国北部高产青贮草地收获量和饲料质量的小范围变化
局部草叶枯萎,尤其是泥炭土上的草地,对 2018/2019 年极端干旱的反应表明了中欧北部集约化草地的气候脆弱性。我们探讨了微地形(即田间洼地和高地的镶嵌)在潮湿年(2021 年)和干旱年(2022 年)对泥炭土集约化管理草地的土壤容积含水量、立地生物量、生物量粗蛋白(CP)和纤维含量的影响,以量化田间小尺度空间异质性。较湿润的洼地有助于限制干旱夏季整体生产力的下降,而在湿润的夏季,较高的干旱地块比洼地生产出更多富含蛋白质的牧草,洼地的生产力较高,但质量较低。我们建议通过空间上的差异化管理制度使草地管理适应这种异质性,以更好地应对日益干燥和多变的气候。
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