Trees and grass buffers impact on soil carbon in an agroforestry alleycropping watershed

IF 2 3区 农林科学 Q2 AGRONOMY
Ciro Abbud Righi, Biyensa Gurmessa, Ranjith P. Udawatta, Morgan P. Davis
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Abstract

Perennial vegetation in farmlands can mitigate anthropogenic greenhouse gases (GHG) by capturing atmospheric carbon and storing it in the soil for extended periods. The objective of this study was to quantify soil organic carbon (SOC) concentrations and stocks under tree buffer (TB), grass buffer (GB), grass waterways (WW) and crop field (CS, corn-soybean rotation) to evaluate the significance of conservation measures in C sequestration projects. Soil samples were collected up to 1 m depth at upper, middle, and lower landscape positions from 26-year-old TB, GB, and WW in a watershed. The SOC concentration decreased with increasing soil depth for all four land uses. However, as expected, bulk density increased with increasing soil depth for all four land uses. It was highest for the CS land use. In 2023, for the depth of 0–10 cm, SOC increased by +0.63, +1.06, +1.37 and +1.63% in CS, GB, TB, and WW, respectively, since the land uses were established 26 years ago. Land uses had greater impacts on SOC stock in the top 50 cm depth, with WW (113.5 ± 12.9 Mg ha−1), TB (106 ± 14.5 Mg ha−1), and GB (102.4 ± 11.6 Mg ha−1) compared to CS (90.9 ± 10.2 Mg ha−1). However, at watershed level, with ~ 10% cover by TB or GB areas and the rest under CS, SOC stock up to 50 cm depth was respectively 91.6 and 91.2 Mg ha−1 compared to 90 Mg ha−1 by CS alone—1.3 to 1.8% increase. This is a significant increase in soil organic carbon across the landscape, which was realized with the conservation practices and agroforestry, while also playing a crucial role in protecting surface runoff in the landscape. Future studies may consider valuation of the overall ecosystem services due to the land uses (conservation measures) and the trees by considering optimization of incorporating such technologies in the farming systems to reduce negative trade-offs.

Abstract Image

树木和草地缓冲区对农林巷作流域土壤碳的影响
农田中的多年生植被可捕捉大气中的碳并将其长期储存在土壤中,从而缓解人为温室气体(GHG)。本研究旨在量化树木缓冲区(TB)、草地缓冲区(GB)、草地水道(WW)和作物田(CS,玉米-大豆轮作)下的土壤有机碳(SOC)浓度和储量,以评估固碳项目中保护措施的意义。从流域内 26 年树龄的 TB、GB 和 WW 的上部、中部和下部景观位置采集了深度达 1 米的土壤样本。所有四种土地利用方式的 SOC 浓度都随着土壤深度的增加而降低。然而,正如预期的那样,所有四种土地利用方式的容重都随着土壤深度的增加而增加。其中,CS 土地用途的体积密度最高。自 26 年前建立土地用途以来,2023 年,CS、GB、TB 和 WW 的 0-10 厘米深度 SOC 分别增加了 +0.63%、+1.06%、+1.37% 和 +1.63%。与 CS(90.9 ± 10.2 Mg ha-1)相比,WW(113.5 ± 12.9 Mg ha-1)、TB(106 ± 14.5 Mg ha-1)和 GB(102.4 ± 11.6 Mg ha-1)对顶部 50 厘米深度的 SOC 储量影响更大。然而,在流域层面,当 TB 或 GB 覆盖率约为 10%,其余为 CS 覆盖率时,50 厘米深处的 SOC 储量分别为 91.6 和 91.2 Mg ha-1,而 CS 仅为 90 Mg ha-1-1.3%至 1.8%。这是整个景观中土壤有机碳的显著增加,通过保护措施和农林业得以实现,同时还在保护景观地表径流方面发挥了重要作用。未来的研究可能会考虑对土地利用(保护措施)和树木带来的整体生态系统服务进行估值,方法是考虑优化将此类技术纳入耕作系统,以减少负面权衡。
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来源期刊
Agroforestry Systems
Agroforestry Systems 农林科学-林学
CiteScore
5.30
自引率
9.10%
发文量
78
审稿时长
4.5 months
期刊介绍: Agroforestry Systems is an international scientific journal that publishes results of novel, high impact original research, critical reviews and short communications on any aspect of agroforestry. The journal particularly encourages contributions that demonstrate the role of agroforestry in providing commodity as well non-commodity benefits such as ecosystem services. Papers dealing with both biophysical and socioeconomic aspects are welcome. These include results of investigations of a fundamental or applied nature dealing with integrated systems involving trees and crops and/or livestock. Manuscripts that are purely descriptive in nature or confirmatory in nature of well-established findings, and with limited international scope are discouraged. To be acceptable for publication, the information presented must be relevant to a context wider than the specific location where the study was undertaken, and provide new insight or make a significant contribution to the agroforestry knowledge base
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