Development of a Drought Early Warning System based on the Prediction of Agricultural Productivity: A Data Science Approach

Q3 Social Sciences GI_Forum Pub Date : 2022-01-01 DOI:10.1553/giscience2022_01_s58

H. Kemper

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Abstract

Drought is among the most common but least understood phenomena that affect an increasing number of people in the context of climate change. To understand underlying drought dynamics affecting the local agricultural production in Botswana, a broad database comprising climatic and remote-sensing data together with socioeconomic indicators was set up. A data science approach that includes statistical and machine learning methods was chosen to retrieve information applicable in a drought early-warning system. The aim of the study was to examine how data science can contribute to the understanding of drought risk through the integration of various data sources. Different regression models (including linear and OLS) were applied. Naïve Bayes classification and Random Forest regression were included, as was a change point analysis. The impacts of two variables in particular, the Standardized Precipitation Index (SPI) and the Southern Oscillation Index (SOI), on crop productivity could be observed, highlighting possible national and regional thresholds. Further development of the early warning system, including validation, should be accompanied by ground-truth information and work with local partners.

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基于农业生产力预测的干旱预警系统开发:数据科学方法

在气候变化的背景下，干旱是影响越来越多的人的最常见但却最不为人所知的现象之一。为了了解影响博茨瓦纳当地农业生产的潜在干旱动态，建立了一个包括气候和遥感数据以及社会经济指标的广泛数据库。选择了包括统计和机器学习方法在内的数据科学方法来检索适用于干旱预警系统的信息。该研究的目的是研究数据科学如何通过整合各种数据源来促进对干旱风险的理解。采用了不同的回归模型(包括线性和OLS)。Naïve包括贝叶斯分类和随机森林回归，以及变化点分析。可以观测到标准化降水指数(SPI)和南方涛动指数(SOI)这两个变量对作物生产力的影响，突出了可能的国家和区域阈值。早期预警系统的进一步发展，包括验证，应伴随着真实的信息，并与当地伙伴合作。

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