Abstract
The growing competition for the finite land and water resources and the need to feed an ever-growing population requires new techniques to monitor the performance of irrigation schemes and improve land and water productivity. Datasets from FAO’s portal to monitor Water Productivity through Open access Remotely sensed derived data (WaPOR) is increasingly applied as a cost-effective means to support irrigation performance assessment and identifying possible pathways for improvement. This study presents a framework that applies WaPOR data to assess irrigation performance indicators including uniformity, equity, adequacy and land and water productivity differentiated by irrigation method (furrow, sprinkler and centre pivot) at the Xinavane sugarcane estate, Mozambique. The WaPOR data on water, land and climate is near-real-time and spatially distributed, with the finest spatial resolution in the area of 100 m. The WaPOR data were first validated agronomically by examining the biomass response to water, then the data was used to systematically analyse seasonal indicators for the period 2015 to 2018 on ~8,000 ha. The WaPOR based yield estimates were found to be comparable to the estate-measured yields with ±20 % difference, root mean square error of 19 ± 2.5 ton/ha and mean absolute error of 15 ± 1.6 ton/ha. A climate normalization factor that enables the spatial and temporal comparison of performance indicators are applied. The assessment highlights that in Xinavane no single irrigation method performs the best across all performance indicators. Centre pivot compared to sprinkler and furrow irrigation shows higher adequacy, equity, and land productivity, but lower water productivity. The three irrigation methods have excellent uniformity (~94 %) in the four seasons and acceptable adequacy for most periods of the season except in 2016, when a drought was observed. While this study is done for sugarcane in one irrigation scheme, the approach can be broadened to compare other crops across fields or irrigation schemes across Africa with diverse management units in the different agro-climatic zone within FaO WaPOR coverage. We conclude that the framework is useful for assessing irrigation performance using the WaPOR dataset.
Highlights
Increasing agricultural production to feed the growing global population can be achieved through either expanding agricultural land or by increasing land and water productivity of the existing agricultural areas
The ETa is the highest at fields irrigated by centre pivot followed by sprinkler and furrow
The four-season average actual water consumption of centre pivot remains the highest followed by sprinkler and furrow, except for 2016, when the sprinkler normalised ETa is at the same level as furrow ETa (Figure 6)
Summary
Increasing agricultural production to feed the growing global population can be achieved through either expanding agricultural land or by increasing land and water productivity of the existing agricultural areas. With growing competition and scarcity of the finite water and land resources, and the environmental and social costs of expanding agricultural land (Hess et al, 2016), improving land and water productivity has a clear preference. The increasing global demand for sugar is reflected in the steady increase in sugarcane production in Mozambique at an average annual rate of 10 percent (FAO, 2019). The majority of this increase comes from expanding agricultural land (Hess et al, 2016). Raising sugarcane productivity per unit of land and water on existing croplands needs to be explored by conducting irrigation performance assessment
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