利用高光谱传感和绘制土壤碳含量图,改善田间土壤肥力的异质性,提高土壤固碳能力

IF 5.4 2区 农林科学 Q1 AGRICULTURE, MULTIDISCIPLINARY
Yoshio Inoue, Kunihiko Yoshino, Fumiki Hosoi, Akira Iwasaki, Takashi Hirayama, Takashi Saito
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引用次数: 0

摘要

土壤肥力是作物生产实现高产和可持续性的最重要基础之一。田间异质性往往会给作物管理方法和作物产量带来问题。此外,适当的土壤管理措施能有效固碳。由于土壤碳含量(SCC)是衡量土壤肥力最简单有效的指标,因此准确、高分辨率的土壤碳含量绘图是解决这些问题的重要基础。在此,我们开发了一种基于拖拉机的高光谱传感系统,用于快速准确地绘制 SCC 图。事实证明,将归一化差异光谱指数(h-NDSI)与机器学习相结合的新型混合光谱算法具有优越性。该系统采用了适当的算法,可根据 SCC 图生成诊断图和处方图,用于颗粒肥料的变速施用。传感/绘图系统的实地性能在日本福岛地区的农民田地中进行了测试,由于核电站灾难后的净化,田地内土壤肥力的异质性非常严重。事实证明,该系统的结构和功能很有前途。此外,通过连接 SCC 数据和动态模拟模型进行的空间模拟清楚地表明,颗粒肥料的不同施用量对 SCC 的时序变化、田间异质性和碳储量有显著影响。将传感/测绘系统与变速撒肥机和动态模拟模型系统地联系起来,可有效提高土壤肥力和土壤碳储量。将通过对预测模型的广泛验证来扩大该系统的适用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hyperspectral sensing and mapping of soil carbon content for amending within-field heterogeneity of soil fertility and enhancing soil carbon sequestration

Soil fertility is one of the most critical bases for high productivity and sustainability in crop production. Within-field heterogeneity is often problematic in both crop management practices and crop productivity. Besides, appropriate soil management practices leads to the effective carbon sequestration. Since the soil carbon content (SCC) is the most simple and effective indicator of soil fertility, accurate and high-resolution mapping of SCC is an essential basis for addressing these issues. Here, we developed a tractor-based hyperspectral sensing system for speedy and accurate mapping of SCC. A new hybrid spectral algorithm linking normalized difference spectral index (h-NDSI) and machine learning proved superior. Appropriate algorithms were implemented to generate diagnostic map and prescription map from SCC map for the variable-rate application of pellet manure. The field performance of the sensing/mapping system was tested in the farmers' fields in the Fukushima region of Japan where the within-field heterogeneity of soil fertility was disastrous due to the decontamination after the nuclear power-plant disaster. The structure and functioning of the system proved promising. Moreover, the spatial simulation by linking the SCC data and a dynamic simulation model clearly showed the significant impact of variable-rate application of pellet manure on the chronosequential change of SCC, within-field heterogeneity, and carbon stock. The systematic linkage of the sensing/mapping system with the variable-rate spreader and dynamic simulation model would be effective for improving soil fertility and soil carbon stock. Applicability of the system will be extended through an extensive validation of the predictive models.

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来源期刊
Precision Agriculture
Precision Agriculture 农林科学-农业综合
CiteScore
12.30
自引率
8.10%
发文量
103
审稿时长
>24 weeks
期刊介绍: Precision Agriculture promotes the most innovative results coming from the research in the field of precision agriculture. It provides an effective forum for disseminating original and fundamental research and experience in the rapidly advancing area of precision farming. There are many topics in the field of precision agriculture; therefore, the topics that are addressed include, but are not limited to: Natural Resources Variability: Soil and landscape variability, digital elevation models, soil mapping, geostatistics, geographic information systems, microclimate, weather forecasting, remote sensing, management units, scale, etc. Managing Variability: Sampling techniques, site-specific nutrient and crop protection chemical recommendation, crop quality, tillage, seed density, seed variety, yield mapping, remote sensing, record keeping systems, data interpretation and use, crops (corn, wheat, sugar beets, potatoes, peanut, cotton, vegetables, etc.), management scale, etc. Engineering Technology: Computers, positioning systems, DGPS, machinery, tillage, planting, nutrient and crop protection implements, manure, irrigation, fertigation, yield monitor and mapping, soil physical and chemical characteristic sensors, weed/pest mapping, etc. Profitability: MEY, net returns, BMPs, optimum recommendations, crop quality, technology cost, sustainability, social impacts, marketing, cooperatives, farm scale, crop type, etc. Environment: Nutrient, crop protection chemicals, sediments, leaching, runoff, practices, field, watershed, on/off farm, artificial drainage, ground water, surface water, etc. Technology Transfer: Skill needs, education, training, outreach, methods, surveys, agri-business, producers, distance education, Internet, simulations models, decision support systems, expert systems, on-farm experimentation, partnerships, quality of rural life, etc.
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