Tracking Soil Health Changes in a Management-Intensive Grazing Agroecosystem

IF 2.9 Q2 SOIL SCIENCE
Tad Trimarco, Joe E. Brummer, Cassidy Buchanan, James A. Ippolito
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Abstract

Management-intensive Grazing (MiG) has been proposed to sustainably intensify agroecosystems through careful management of livestock rotations on pastureland. However, there is little research on the soil health impacts of transitioning from irrigated cropland to irrigated MiG pasture with continuous livestock rotation. We analyzed ten soil health indicators using the Soil Management Assessment Framework (SMAF) to identify changes in nutrient status and soil physical, biological, and chemical health five to six years after converting irrigated cropland to irrigated pastureland under MiG. Significant improvements in biological soil health indicators and significant degradation in bulk density, a physical soil health indicator, were observed. Removal of tillage and increased organic matter inputs may have led to increases in β-glucosidase, microbial biomass carbon, and potentially mineralizable nitrogen, all of which are biological indicators of soil health. Conversely, trampling by grazing cattle has led to increased bulk density and, thus, a reduction in soil physical health. Nutrient status was relatively stable, with combined manure and fertilizer inputs leading to stabilized plant-available phosphorous (P) and increased potassium (K) soil concentrations. Although mixed effects on soil health were present, overall soil health did increase, and the MiG system appeared to have greater overall soil health as compared to results generated four to five years earlier. When utilizing MiG in irrigated pastures, balancing the deleterious effects of soil compaction with grazing needs to be considered to maintain long-term soil health.
管理集约化放牧农业生态系统土壤健康变化的跟踪研究
管理集约化放牧(MiG)已被提出,通过精心管理牧场上的牲畜轮作,可持续地加强农业生态系统。然而,目前对水田向水牧轮作过渡对土壤健康的影响研究较少。我们使用土壤管理评估框架(SMAF)分析了10个土壤健康指标,以确定在MiG下将灌溉农田转化为灌溉牧场后5至6年的养分状况和土壤物理、生物和化学健康的变化。土壤生物健康指标显著改善,土壤物理健康指标容重显著下降。免耕和增加有机质投入可能导致β-葡萄糖苷酶、微生物生物量碳和潜在矿化氮的增加,所有这些都是土壤健康的生物指标。相反,放牧牛的践踏导致体积密度增加,从而降低了土壤的物理健康。土壤养分状况相对稳定,粪肥配施使土壤速效磷(P)稳定,钾(K)含量增加。尽管存在对土壤健康的混合影响,但总体土壤健康确实有所增加,与四到五年前的结果相比,MiG系统似乎具有更大的总体土壤健康。在灌溉牧草中利用MiG时,需要考虑平衡土壤压实和放牧的有害影响,以保持土壤的长期健康。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Soil Systems
Soil Systems Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
5.30
自引率
5.70%
发文量
80
审稿时长
11 weeks
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