Abstract
Increasing agricultural productivity without undermining further the integrity of the Earth’s environmental systems such as soil water balance are important tasks to ensure food security for an increasing global population in rainfed agriculture. The impact of intercropping maize (Zea mays L.) with potato (Solanum tuberosum L.) on yield, land equivalent ratios (LER), water equivalent ratio (WER), water use, energy output, and net economic return were examined under seven planting systems: potato grown solely or intercropped on the flat field without mulching, maize grown solely or intercropped with potato on ridges or flat field with or without plastic film mulched. The three intercropping systems had 3–13% less water use than the monocropping. Among the intercropped systems, flat field caused more depletion of soil water than ridged field for both years. Compared to monocultures, intercropping with plastic film mulching and ridging significantly increased LER and WER. Meanwhile, intercropping with mulching and ridging significantly increased net economic return and energy output by 8% and 24%, respectively, when compared to monocropping. These results suggest that maize under plastic film mulched ridge-furrow plot intercropped with potato under flat plot without mulching increased energy output, net economic return, and water use efficiency without increasing soil water depletion, which could be an optimal intercropping system for the semiarid farmland on the western Loess Plateau.
Highlights
In the coming decades, a crucial challenge for humanity will be meeting future food demands without undermining further the integrity of the Earth’s environmental systems [1,2,3,4]
Some major issues for crop production on the Loess Plateau are (1) low water-use efficiency (WUE) i.e., the low economic yield caused by drought stress, (2) low decomposition of organic matter which affects soil fertility, and (3) high evaporation reducing the amount of water in the soil for crop growth [13,14,15]
The changing trend of yield and yield components of maize and potato in the two growing seasons were almost similar among the intercropping treatments; as a result of the severe drought, the potato yield was significantly lower in 2014 than that in 2015
Summary
A crucial challenge for humanity will be meeting future food demands without undermining further the integrity of the Earth’s environmental systems [1,2,3,4]. This challenge would be met by crop diversification and trade-offs between productivity and other ecosystem services [5,6,7]. Crop yield could be increased by maximizing WUE which is a major challenge for dryland farming in the semiarid area on the Loess Plateau [12,16]
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