Tillage Practices Effect on Root Distribution and Variation of Soil CO2 Emission under Different Cropping Strategies

Agronomy Pub Date : 2024-08-12 DOI:10.3390/agronomy14081768
Agnė Buivydienė, Irena Deveikytė, Agnė Veršulienė, Virginijus Feiza
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Abstract

Conservation soil management strategies, particularly no-tillage and cropping strategies, have become an effective and widely adopted practice that has a direct influence on root parameters and mitigation of greenhouse gasses. However, the effect of different tillage and cropping strategies on root growth in field conditions is rarely studied. The study aimed to quantify and characterise the relationship between root network development and CO2 emission and how these parameters are affected by different cropping and tillage strategies. Five different crop rotations were tested, with or without the inclusion of catch crops (CC), by growing them in the soil where different tillage practices were applied. Selected cropping strategies differed among themselves in terms of the frequency of CC grown per rotation. The data revealed that in NT treatments, the CO2 emission (both autotrophic and heterotrophic simultaneously) was 25% higher than in CT. The cropping strategies were identified as an important factor influencing CO2 emissions. An increase in CO2 emission varied between 30 and 35% depending on the share of legume and CC inclusion. The frequency of CC grown per rotation has had an effect on the rate of CO2 emission. The cropping strategy when CC was grown every year showed the lowest amount of CO2 (by 26%), while in other cropping strategies, when CC was grown once or twice per rotation, significantly higher CO2 emissions were observed. Root growth and their development were significantly affected (p < 0.05) by soil depth and cropping strategies concerning root length and root volume changes. The inclusion of CC into the rotations led towards a decrease in root volume (by 21%). Root length (R2 = 0.45; p < 0.05) and root volume (R2 = 0.82; p < 0.05) had a significant impact on soil CO2 emissions. The results collected from 2021 to 2023 experiments indicated that cropping strategies and CC management areas are important tools not only for the improvement of root parameters but also for understanding how they affect CO2 emissions. The main message for stakeholders is that the cropping strategies diversification with the inclusion of CC every year in a winter oil-seed rape, spring wheat and pea crop rotation (R/W/P + CC) had demonstrated the possibilities to reduce CO2 emission and improve the root network parameters as compared to the monoculture strategy.
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不同耕作策略下耕作方法对根系分布和土壤二氧化碳排放量变化的影响
土壤保持管理策略,尤其是免耕和种植策略,已成为一种有效且被广泛采用的做法,对根系参数和温室气体减排有直接影响。然而,在田间条件下,不同耕作和种植策略对根系生长的影响却鲜有研究。本研究旨在量化和描述根系网络发展与二氧化碳排放之间的关系,以及这些参数如何受到不同种植和耕作策略的影响。通过在采用不同耕作方式的土壤中种植五种不同的轮作作物,测试了是否加入接茬作物(CC)。选定的耕作策略在每次轮作中种植 CC 的频率方面存在差异。数据显示,NT 处理的二氧化碳排放量(同时包括自养和异养)比 CT 处理高 25%。种植策略被认为是影响二氧化碳排放量的一个重要因素。根据豆科植物和 CC 的种植比例,CO2 排放量的增幅在 30% 到 35% 之间。每轮种植 CC 的频率对二氧化碳排放量有影响。在每年种植 CC 的种植策略中,二氧化碳排放量最低(26%),而在其他种植策略中,当每轮种植 CC 一到两次时,二氧化碳排放量明显较高。根的生长和发育受到土壤深度和种植策略的显著影响(p < 0.05),涉及根的长度和体积变化。在轮作中加入 CC 会导致根系体积减少(21%)。根长(R2 = 0.45;p < 0.05)和根量(R2 = 0.82;p < 0.05)对土壤二氧化碳排放量有显著影响。从 2021 年到 2023 年收集的实验结果表明,种植策略和 CC 管理区不仅是改善根系参数的重要工具,也是了解它们如何影响二氧化碳排放的重要工具。对利益相关者的主要启示是,与单一种植策略相比,在冬油菜、春小麦和豌豆轮作(R/W/P + CC)中每年加入 CC 的多样化种植策略证明了减少二氧化碳排放和改善根网参数的可能性。
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