Abstract
Irrigation water use efficiency is a primary evaluation index that links economic production development with the efficient use of water resources. Canal water conveyance is an important part of irrigation, and the distribution characteristics of canal systems have an important influence on irrigation water use efficiency. In this paper, 75 irrigated districts in Heilongjiang Province in 2015 were selected as the study objects. The main, branch, lateral, and sublateral canals were graded into first-, second-, third-, and fourth-order classes, respectively. The irrigation districts were divided into three classes, that is, four-order, three-order, and two-order, according to the canal orders that the irrigation districts contained. The canal system framework was described by Horton’s law. The fractal dimension of the canal system was calculated based on the bifurcation ratio and length ratio of the canals. The relationships between fractal dimensions and irrigation water use efficiency were evaluated. The results showed that the irrigation water use efficiency of the four-order and three-order irrigation districts initially increased and then decreased with increases in the fractal dimension (D). In the irrigation districts, an irrigation water use efficiency of more than 10 × 103 hm2 and less than 0.67 × 103 hm2 was proportional to the increase in the fractal dimension, whereas the opposite result was found for districts with (0.67–10) × 103 hm2. The irrigation water use efficiency of the four-order and two-order irrigation districts with less than 3.3 × 103 hm2 had the greatest potential to increase the water use efficiency. Therefore, canal system reconstruction suggestions for different irrigation districts were provided. The results have important theoretical significance and practical value for the improvement of irrigation construction and the promotion of irrigation water efficiency planning.
Highlights
The internationally accepted term for the effective utilization of irrigation water is “irrigation efficiency” and is divided into the following three parts by the International Commission on Irrigation and Drainage (ICID); namely, water delivery efficiency, water distribution efficiency, and field irrigation efficiency [1]
In China, the term “irrigation water use efficiency” (IWUE) is commonly used and is defined by the Chinese “technical terminology for rural water conservancy” as the ratio between the amount of water that can be used by the crop and the total amount of water diverted from canals [2]
When the value of D increased by 20%, the increased IWUE value in irrigation districts with higher fractal dimensions reached more than 0.01
Summary
The internationally accepted term for the effective utilization of irrigation water is “irrigation efficiency” and is divided into the following three parts by the International Commission on Irrigation and Drainage (ICID); namely, water delivery efficiency, water distribution efficiency, and field irrigation efficiency [1]. This concept is similar to water delivery efficiency [3]. The factors affecting the efficiency of irrigation water use are complex and diverse, and research on various influencing factors has achieved many results [4,5,6,7]. The canal is the main project to undertake the function of irrigation water use and water distribution. The engineering status and distribution characteristics of canals have direct effects on the IWUE in irrigation districts. Many scholars have realized the importance of channel research [9,10,11,12,13,14]
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