Abstract:

In order to study the effect of warming on field water characteristics of spring wheat，the field experiments that temperature was increased by an infrared radiator were designed at Dingxi experiment station in semi － arid area of the Loess Plateau in central Gansu． The results showed that with the increase of temperature，leaf water potential was lowered． Compared with no warming，warming of 1． 0 ℃ and 2． 0 ℃ reduced daily average leaf water potential by 2． 61% and 4． 45%，respectively． Soil water potential increased with increase of soil depth gradually． With the increase of temperature，soil water potential at different soil depth showed a decreasing trend， the higher temperature was，the greater decline of soil water potential was． There was negative correlation between warming and soil water content． Warming significantly decreased soil water storage of spring wheat，and increased evapotranspiration． Under the conditions of warming 2 ℃，irrigation increased the total storage capacity of soil，especially after jointing stage． Soil water consumption amount increased with the increase of temperature ( 0 － 100 cm) ，while the variation tendency of soil water consumption amount was not obvious ( 100 － 160 cm) ． When temperature was increased by 2 ℃，soil water consumption amount of wet treatment was higher than that of the normal water supply and drought treatment for 0 － 160 cm soil depth．

Key words: simulated warming, water potential, soil moisture content, soil water consumption amount, semi － arid area

摘要：

采用红外线辐射器增温法，通过增温模拟试验研究了增温对半干旱区春小麦田间水分特征的影响。结果表明，随着温度增加，叶片水势不断降低，增温1．0 ℃和2．0 ℃的春小麦叶片水势比没有增温的春小麦叶片水势日平均分别降低了2．61%和4．45%土壤水势随着土层深度的加深呈缓慢增加趋势。温度增加，不同土层深度的土壤水势均呈不断降低的趋势，温度增加越多，降幅越大;增温与土壤含水量之间存在着显著的负相关关系。增温能够明显降低春小麦田间土壤贮水量，增加农田总蒸散量。在高温情况下，湿润处理增加了土壤总贮水量，尤其是在拔节期以后。春小麦0～160 cm土壤贮水消耗量在100 cm以上随温度的增加呈逐渐增加的趋势，而在100 cm以下深层变化趋势不明显。增温2 ℃，湿润处理0～160 cm土壤贮水消耗量要高于正常供水和干旱处理。

关键词:
模拟增温, 水势, 土壤含水量, 土壤贮水消耗量, 半干旱区