采用改进的电缆加热升温方法,研究了土壤温度升高1 ℃~3 ℃对湿草甸小叶章生长及生理特性的影响.结果表明:土壤温度升高明显促进了小叶章植株的生长淹水处理条件下各指标的增长程度依次为:根系总吸收面积(60%)>叶面积(37.32%)>分蘖数(25.81%)>根系体积(24.67%)>株高(18.2%);非淹水处理条件下为:根系总吸收面积(37.47%)>根系体积(36.26%)>叶面积(32.9%)>分蘖数(32.77%)>株高(12.09%).淹水处理条件下小叶章各生理指标对温度升高的响应较为显著,升温淹水处理下小叶章的总叶绿素含量、根部可溶性蛋白含量均呈增加趋势(9.8%和23.88%),而叶片可溶性蛋白和可溶性糖及根部可溶性糖含量显著下降(24.67%、22.92%和35.23%).说明土温升高1 ℃~3 ℃能够显著促进湿草甸小叶章的生长,且其生理特性对土温升高的响应程度因水分条件而异.
By using improved heating cables, a field experiment was conducted to
study the effects of 1 ℃〖KG-*2〗-〖KG-*7〗30 ℃ soil warming on the growth and phys
iological characters of Deyeuxia angustifolia. Soil warming obviously promoted t
he growth of D. angustifolia. Under flooded condition, the plant height incr
eased by 182%, leaf area increased by 3732%, root volume increased by 2467
%, total root absorbing area increased by 60%, and tillers number increased by 2
581%; under un-flooded condition, the plant height increased by 1209%, leaf
area increased by 329%, root volume increased by 3626%, total root absorbin
g area increased by 3747%, an
d tillers number increased by 3277%. The responses of D. angustifolia phys
iolog
ical indices to soil warming were more obvious under flooded than under un-floo
d
ed condition. Under flooded condition, the total chlorophyll content and root so
luble protein content increased by 98% and 2388%, while the leaf soluble pro
te
in and soluble carbon contents and root soluble carbon content decreased by 25
0
2%, 2292%, and 3523%, respectively. 1 ℃〖KG-*2〗-〖KG-*7〗30 ℃ soil warming pro
moted the growth of
D. angustifolia, but the responses of its physiological characters to the so
il warming varied with water conditions.