Modeling of total and active organic carbon dynamics in agricultural soil using digital soil mapping: a case study from Central Nova Scotia

IF 1.5 4区 农林科学 Q4 SOIL SCIENCE Canadian Journal of Soil Science Pub Date : 2022-07-27 DOI:10.1139/cjss-2022-0012
S. S. Paul, Brandon Heung, D. Lynch
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引用次数: 4

Abstract

Abstract Monitoring the changes in soil organic carbon (SOC) pools is critical for sustainable soil and agricultural management. This case study models total and active organic carbon dynamics (2015/2016 to 2019/2020) using digital soil mapping (DSM) techniques. Model predictors include topographic variables generated from light detection and ranging data; soil and vegetation indices derived from Landsat satellite images; and soil and crop inventory information from Agriculture and Agri-Food Canada to predict total organic carbon (TOC) and permanganate oxidizable carbon (POXc) at the 0–15 cm depth increment for a 37 km2 study area in Truro, Nova Scotia. Quantile Regression Forest and stochastic Gradient Boosting Model were utilized for prediction. Although both models performed equally well for predicting TOC and POXc, the accuracy of TOC predictions (e.g., concordance correlation coefficient (CCC) = 0.67) was better than POXc predictions (e.g., CCC = 0.53). The Landsat variables and crop inventory were dominant predictors, while topographic variables across the relatively homogeneous terrain had relatively little influence. During the study period, changes in POXc were predicted across 98% of the study area, with a mean absolute loss of 5.77 (±11.48) mg/kg/year, and in TOC on 27% of the area, with a mean absolute loss of 0.15 (±0.09) g/kg/year. While the annual crop fields observed the highest loss of TOC and POXc, the decline in pasture–grassland–forage fields was relatively low. The study reinforced the effectiveness of DSM for modeling multiple SOC pools at the farm to landscape scales.
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利用数字土壤制图对农业土壤中的总有机碳和活性有机碳动态进行建模:以新斯科舍省中部为例
摘要监测土壤有机碳库的变化对可持续土壤和农业管理至关重要。本案例研究使用数字土壤制图(DSM)技术对总有机碳和活性有机碳动力学(2015/2016至2019/2020)进行建模。模型预测因子包括由光探测和测距数据生成的地形变量;从陆地卫星卫星图像得出的土壤和植被指数;以及来自加拿大农业和农业食品部的土壤和作物库存信息,以预测新斯科舍省特鲁罗市37平方公里研究区0–15厘米深度增量下的总有机碳(TOC)和高锰酸盐可氧化碳(POXc)。采用分位数回归森林和随机梯度提升模型进行预测。尽管这两个模型在预测TOC和POXc方面表现同样出色,但TOC预测的准确性(例如,一致性相关系数(CCC)=0.67)优于POXc预测(例如,CCC=0.53)。陆地卫星变量和作物库存是主要预测因子,而相对均匀地形上的地形变量影响相对较小。在研究期间,预测98%的研究区域的POXc变化,平均绝对损失为5.77(±11.48)mg/kg/年,27%的区域的TOC变化,平均完全损失为0.15(±0.09)g/kg/年。虽然年度作物田的TOC和POXc损失最高,但牧场-草地-饲草田的损失相对较低。该研究加强了DSM在农场到景观尺度上建模多个SOC池的有效性。
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来源期刊
Canadian Journal of Soil Science
Canadian Journal of Soil Science 农林科学-土壤科学
CiteScore
2.90
自引率
11.80%
发文量
73
审稿时长
6.0 months
期刊介绍: The Canadian Journal of Soil Science is an international peer-reviewed journal published in cooperation with the Canadian Society of Soil Science. The journal publishes original research on the use, management, structure and development of soils and draws from the disciplines of soil science, agrometeorology, ecology, agricultural engineering, environmental science, hydrology, forestry, geology, geography and climatology. Research is published in a number of topic sections including: agrometeorology; ecology, biological processes and plant interactions; composition and chemical processes; physical processes and interfaces; genesis, landscape processes and relationships; contamination and environmental stewardship; and management for agricultural, forestry and urban uses.
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