Using a Triple Sensor Collocation Approach to Evaluate Small-Holder Irrigation Scheme Performances in Northern Ethiopia

IF 3 3区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES
Water Pub Date : 2024-09-17 DOI:10.3390/w16182638
Amina Abdelkadir Mohammedshum, Ben H. P. Maathuis, Chris M. Mannaerts, Daniel Teka
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Abstract

This study uses a triple-sensor collocation approach to evaluate the performance of small-holder irrigation schemes in the Zamra catchment of Northern Ethiopia. Crop water productivity (CWP), as an integrator of biomass production and water use, was used to compare the overall efficiencies of three types of irrigation systems: traditional and modern diversions, and dam-based irrigation water supply. Farmer-reported data often rely on observations, which can introduce human estimation and measurement errors. As a result, the evaluation of irrigation scheme performance has frequently been insufficient to fully explain crop water productivity. To overcome the challenges of using one single estimation method, we used a triple-sensor collocation approach to evaluate the efficiency of three small-scale irrigation schemes, using water productivity as an indicator. It employed three independent methods: remotely sensed data, a model-based approach, and farmer in-situ estimates to assess crop yields and water consumption. To implement the triple collocation appraisal, we first applied three independent evaluation methods, i.e., remotely sensed, model-based, and farmer in-situ estimates of crop yields and water consumption, to assess the crop water productivities of the systems. Triple-sensor collocation allows for the appraisal and comparison of estimation errors of measurement sensor systems, and enables the ranking of the estimators by their quality to represent the de-facto unknown true value, in our case: crop yields, water use, and its ratio CWP, in small-holder irrigated agriculture. The study entailed four main components: (1) collecting in-situ information and data from small-holder farmers on crop yields and water use; (2) derivation of remote sensing-based CWP from the FAO WaPOR open database and time series; (3) evaluation of biomass, crop yields and water use (evapotranspiration) using the AquaCrop model, integrating climate, soil data, and irrigation management practices; (4) performing and analysis of a categorical triple collocation analysis of the independent estimator data and performance ranking of the three sensing and small-holder irrigation systems. Maize and vegetables were used as main crops during three consecutive irrigation seasons (2017/18, 2018/19, 2019/20). Civil war prevented further field surveying, in-situ research, and data collection. The results indicate that remote sensing products are performed best in the modern and dam irrigation schemes for maize. For vegetables, AquaCrop performed best in the dam irrigation scheme.
使用三重传感器定位方法评估埃塞俄比亚北部小农灌溉计划的绩效
本研究采用三重传感器定位方法评估埃塞俄比亚北部扎姆拉集水区小农灌溉计划的绩效。作物水分生产率(CWP)作为生物量生产和用水的综合指标,被用来比较三种灌溉系统的总体效率:传统引水和现代引水,以及基于水坝的灌溉供水。农民报告的数据通常依赖于观测,这可能会带来人为估计和测量误差。因此,对灌溉系统性能的评估往往不足以全面解释作物水分生产率。为了克服使用单一估算方法所带来的挑战,我们采用了三重传感器定位方法,以水分生产率为指标,对三个小型灌溉计划的效率进行了评估。它采用了三种独立的方法:遥感数据、基于模型的方法和农民现场估算,以评估作物产量和耗水量。为了实施三重搭配评估,我们首先采用了三种独立的评估方法,即遥感数据、基于模型的方法和农民现场估算的作物产量和耗水量,来评估各系统的作物水分生产率。通过三传感器搭配,可以评估和比较测量传感器系统的估算误差,并根据估算值的质量对其进行排序,以反映事实上未知的真实值,在我们的案例中,即小农灌溉农业中的作物产量、用水量及其 CWP 比值。研究包括四个主要部分(1) 从小农那里收集有关作物产量和用水量的现场信息和数据;(2) 从联合国粮农组织 WaPOR 开放数据库和时间序列中推导出基于遥感的 CWP;(3) 使用 AquaCrop 模型评估生物量、作物产量和用水量(蒸散量),该模型整合了气候、土壤数据和灌溉管理方法;(4) 对独立估算数据进行分类三重搭配分析,并对三种传感系统和小农灌溉系统进行性能排名。玉米和蔬菜是连续三个灌溉季节(2017/18、2018/19、2019/20)的主要作物。内战阻碍了进一步的实地调查、现场研究和数据收集。结果表明,遥感产品在玉米的现代灌溉系统和水坝灌溉系统中表现最佳。在蔬菜方面,AquaCrop 在大坝灌溉方案中表现最佳。
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来源期刊
Water
Water WATER RESOURCES-
CiteScore
5.80
自引率
14.70%
发文量
3491
审稿时长
19.85 days
期刊介绍: Water (ISSN 2073-4441) is an international and cross-disciplinary scholarly journal covering all aspects of water including water science and technology, and the hydrology, ecology and management of water resources. It publishes regular research papers, critical reviews and short communications, and there is no restriction on the length of the papers. Our aim is to encourage scientists to publish their experimental and theoretical research in as much detail as possible. Full experimental and/or methodical details must be provided for research articles. Computed data or files regarding the full details of the experimental procedure, if unable to be published in a normal way, can be deposited as supplementary material.
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