Mapping and Yield Prediction of Castor Bean (Ricinus communis) Using Sentinel-2A Satellite Image in a Semi-Arid Region of India

Q3 Environmental Science

Journal of Landscape Ecology(Czech Republic) Pub Date : 2023-08-22 DOI:10.2478/jlecol-2023-0008

Ritesh Kumar, Narendra Singh Bishnoi, Nimish Narayan Gautam, Muskan, V. Mishra

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引用次数: 0

Abstract

Abstract Castor bean (Ricinus communis) indigenous to the southeastern Mediterranean basin, eastern Africa and India is a crop having various industrial and medicinal applications. It is helpful in crop rotation and replenishing the soil nutrients due to less water consumption. The current study explores the utility of Sentinel-2A satellite image for mapping and yield prediction of castor beans. Several classification methods viz. migrating means clustering, maximum likelihood classifier, support vector machine and artificial neural network are used for the classification and mapping of different landscape categories. The overall classification accuracy was achieved to be highest for artificial neural network (85.81 %) subsequently support vector machine (80.12 %), maximum likelihood classifier (74.23 %) and migrating means clustering (73.03 %). The yield prediction is performed using Sentinel-2A-derived indices namely Normalized Difference Vegetation Index and Enhanced Vegetation Index-2. Further, the cumulative values of these two indices are investigated for castor bean yield prediction using linear regression from July 2017 to April 2018 in different seasons (pre-monsoon, post-monsoon, and winter). The regression model provided (adj R2=0.75) value using EVI-2 compared to (adj R2=0.55) using NDVI for yield prediction of Ricinus communis crop in the winter season. The methodology adopted in this study can serve as an effective tool to map and predict the productivity of Ricinus communis. The adopted methodology may also be extended to a wider spatial level and for other significant crops grown in semi-arid regions of world.

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基于Sentinel-2A卫星图像的印度半干旱区蓖麻(Ricinus communis)制图及产量预测

摘要蓖麻原产于地中海东南部盆地、非洲东部和印度，是一种具有多种工业和医药应用的作物。它有助于轮作和补充土壤养分，因为它消耗的水更少。目前的研究探索了Sentinel-2A卫星图像在蓖麻豆测绘和产量预测中的实用性。采用迁移均值聚类、最大似然分类器、支持向量机和人工神经网络等多种分类方法对不同景观类别进行分类和映射。人工神经网络（85.81%）、支持向量机（80.12%）、最大似然分类器（74.23%）和迁移均值聚类（73.03%）的总体分类准确率最高。产量预测使用Sentinel-2A衍生的指数进行，即归一化差异植被指数和增强植被指数-2。此外，利用线性回归方法对2017年7月至2018年4月不同季节（季风前、季风后和冬季）蓖麻产量预测中这两个指标的累积值进行了研究。回归模型使用EVI-2提供了（adj R2=0.75）值，而使用NDVI提供了（dj R2=0.55）值，用于预测蓖麻作物在冬季的产量。本研究采用的方法可以作为绘制和预测蓖麻生产力的有效工具。所采用的方法也可以扩展到更广泛的空间层面，并适用于世界半干旱地区种植的其他重要作物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Landscape Ecology(Czech Republic) Environmental Science-Nature and Landscape Conservation

CiteScore

2.30

自引率

0.00%

发文量

审稿时长

16 weeks

期刊介绍： Journal of Landscape Ecology is a fully reviewed scientific journal published by Czech National Chapter of the Association for Landscape Ecology (CZ-IALE). Our international editorial board has ambition to fill up a gap in the ecological field scope covered by the European scientific journals and mainly those among them which are produced in the Czech Republic. Subjects of papers are not limited teritorially, however, emphasis is given to the Middle-European landscape-ecological themes. The journal is not preferentially theoretical or applied, it is prepared to serve as a bridge between both levels of knowledge. The effort will be developed to increase gradually its quality level and to reach for acceptation by databases of scientific journals with IF. The first issue of JLE was published in 2008. Recently, three issues of JLE are published per year.