Mechanical termination of a perennial grain crop minimally impacts soil structure, carbon and carbon dioxide emissions

Journal of Sustainable Agriculture and Environment Pub Date : 2024-01-31 DOI:10.1002/sae2.12094

Jacob Kundert, Manbir Rakkar, Jessica Gutknecht, Jacob Jungers

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Abstract

Introduction

Mechanical termination of crops can negatively affect soil biological, chemical, and structural characteristics. Perennial crops do not require annual termination and can improve these same soil characteristics, which has catalysed interest in the development of new perennial crops. Advanced lines of the perennial grass intermediate wheatgrass (Thinopyrum intermedium [Host] Barkworth and Dewey; IWG) have been bred for increased seed size and marketed as Kernza® perennial grain, but little is known about how this new crop can be terminated for subsequent annual crop production in rotations that enhance agricultural productivity and environmental sustainability.

Materials and Methods

Five methods of terminating IWG were tested in Minnesota, USA. Treatments included mechanical tillage using a chisel plow (CHI), undercutter (UND), and disc (DSC), along with no-till treatments of glyphosate (GLY) and a repeated-mowing control (CTRL). Treatment effects on IWG mortality, soil carbon dioxide (CO₂) emissions, bulk density, aggregate stability, soil carbon stocks and soybean yield were measured.

Results

Daily CO₂ fluxes differed by treatment (p < 0.05) on only one of 19 sample dates, and cumulative soil CO₂ emissions over the course of the growing season did not differ across treatments. Bulk density decreased relative to baseline in all treatments except CTRL. Aggregate stability remained unchanged in all treatments except CTRL, which increased from the baseline. Soil carbon stocks did not change in any treatment. Soybean yield was highest in GLY but was not significantly different from CHI or UND.

Conclusions

Soil structure, soil carbon stocks and soil CO₂ emissions were unaffected by tillage and no-till IWG termination treatments. However, tillage followed by preplanting harrowing proved ineffective at terminating IWG and required subsequent summer herbicide applications. Therefore, additional tillage events may be required to fully terminate IWG when herbicide use is prohibited.

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机械终止多年生谷物作物对土壤结构、碳和二氧化碳排放的影响最小

引言农作物的机械终结会对土壤的生物、化学和结构特征产生负面影响。多年生作物不需要每年终止，而且可以改善这些相同的土壤特性，这激发了人们对开发新的多年生作物的兴趣。多年生禾本科植物中间麦草（Thinopyrum intermedium [Host] Barkworth and Dewey; IWG）的先进品系已经培育出来，种子体积增大，并作为 Kernza® 多年生谷物上市销售，但人们对这种新作物如何在提高农业生产率和环境可持续性的轮作中为随后的一年生作物生产进行终结却知之甚少。材料与方法在美国明尼苏达州测试了五种终止 IWG 的方法。处理方法包括使用凿犁（CHI）、开沟器（UND）和圆盘（DSC）进行机械耕作，以及草甘膦（GLY）免耕处理和重复刈割对照（CTRL）。测量了处理对 IWG 死亡率、土壤二氧化碳 (CO2) 排放量、容重、团粒稳定性、土壤碳储量和大豆产量的影响。结果在 19 个取样日期中，只有一个日期的日二氧化碳通量因处理而异（p <0.05），生长季期间的累积土壤二氧化碳排放量在不同处理之间没有差异。除 CTRL 外，所有处理的堆积密度都比基线低。除 CTRL 外，所有处理的团粒稳定性都保持不变，但 CTRL 比基线有所上升。各处理的土壤碳储量均无变化。GLY 的大豆产量最高，但与 CHI 和 UND 相比差异不大。结论土壤结构、土壤碳储量和土壤二氧化碳排放量不受耕作和免耕 IWG 终止处理的影响。然而，耕作后再进行播种前耙地被证明不能有效终止 IWG，需要在随后的夏季施用除草剂。因此，在禁止使用除草剂的情况下，可能需要额外的耕作才能完全终止 IWG。

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来源期刊

Journal of Sustainable Agriculture and Environment

CiteScore

2.60

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0.00%

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