With the aid of TDM (thermal dissipation method) with ICT\|2000TE (Transpiration Environment), the results obtained were as follows: (1) The sap flow rate of Quercus liaotungensis varied differently in sunny days, clo...With the aid of TDM (thermal dissipation method) with ICT\|2000TE (Transpiration Environment), the results obtained were as follows: (1) The sap flow rate of Quercus liaotungensis varied differently in sunny days, cloudy days and rainy days, with their maximum value of 12 61 cm·h -1 , 8 71 cm·h -1 and 3 22 cm·h -1 ,respectively. The intermittent sap flow at night was commonly lower than 1cm·h -1 , which testified the existence of root pressure of Q. liaotungensis . (2) In the growth season of July and August, the sample wood of Q. liaotungensis had the average sap flow flux of 60 25cm 3·cm -2 d -1 and total evaporations of 1 346 7 L. (3) The sap flow rate was frequently affected by microclimatic factors. During sunny days and cloudy days, it was mainly affected by the solar radiation, air relative humidity and air temperature. While during rainy days, it was mainly affected by the soil water content and air relative humidity.展开更多
为研究土壤酶活性对氮沉降增加的响应,以山西太岳山油松人工林和天然林为研究对象,于2009年8月开始实施模拟氮沉实验,试验设置对照(CK,0 kg N hm-2a-1);低氮(LN,50 kg N hm-2a-1);中氮(MN,100 kg N hm-2a-1);高氮(HN,150 kg N hm-2a-1)...为研究土壤酶活性对氮沉降增加的响应,以山西太岳山油松人工林和天然林为研究对象,于2009年8月开始实施模拟氮沉实验,试验设置对照(CK,0 kg N hm-2a-1);低氮(LN,50 kg N hm-2a-1);中氮(MN,100 kg N hm-2a-1);高氮(HN,150 kg N hm-2a-1)4种氮处理,自2012年起每年5、7、9月在各处理样方采集表层0—20 cm土壤,测定土壤酶活性(过氧化物酶、多酚氧化酶、纤维素酶、蔗糖酶、脲酶、中性磷酸酶)。研究结果表明:施氮处理下的脲酶与中性磷酸酶活性均有所提高,而低氮处理下天然林中的多酚氧化酶与人工林中的蔗糖酶显著低于对照,中氮、高氮处理下过氧化物酶、多酚氧化酶、天然林中的纤维素酶以及人工林中的蔗糖酶显著降低。总的来说,人工模拟氮沉降促进了土壤中脲酶和中性磷酸酶的活性,抑制了过氧化物酶和多酚氧化酶的活性,并降低了天然林土壤中的纤维素酶活性和人工林中的蔗糖酶活性,但对天然林中蔗糖酶和人工林中的纤维素酶无影响。主导木质素降解的多酚氧化酶活性与纤维素酶、蔗糖酶活性显著相关,纤维素酶与蔗糖酶活性的下降可能是由木质素降解受到抑制,土壤微生物可利用碳源减少所引起。另外,受到天然林土壤含氮量较高的影响,与人工林相比,天然林的多酚氧化酶活性对模拟氮沉降更敏感。由于被抑制的酶均与土壤有机质降解密切相关,氮沉降增加将减缓山西油松林土壤有机质的降解,有利于有机质在土壤中的积累。展开更多
文摘With the aid of TDM (thermal dissipation method) with ICT\|2000TE (Transpiration Environment), the results obtained were as follows: (1) The sap flow rate of Quercus liaotungensis varied differently in sunny days, cloudy days and rainy days, with their maximum value of 12 61 cm·h -1 , 8 71 cm·h -1 and 3 22 cm·h -1 ,respectively. The intermittent sap flow at night was commonly lower than 1cm·h -1 , which testified the existence of root pressure of Q. liaotungensis . (2) In the growth season of July and August, the sample wood of Q. liaotungensis had the average sap flow flux of 60 25cm 3·cm -2 d -1 and total evaporations of 1 346 7 L. (3) The sap flow rate was frequently affected by microclimatic factors. During sunny days and cloudy days, it was mainly affected by the solar radiation, air relative humidity and air temperature. While during rainy days, it was mainly affected by the soil water content and air relative humidity.
文摘为研究土壤酶活性对氮沉降增加的响应,以山西太岳山油松人工林和天然林为研究对象,于2009年8月开始实施模拟氮沉实验,试验设置对照(CK,0 kg N hm-2a-1);低氮(LN,50 kg N hm-2a-1);中氮(MN,100 kg N hm-2a-1);高氮(HN,150 kg N hm-2a-1)4种氮处理,自2012年起每年5、7、9月在各处理样方采集表层0—20 cm土壤,测定土壤酶活性(过氧化物酶、多酚氧化酶、纤维素酶、蔗糖酶、脲酶、中性磷酸酶)。研究结果表明:施氮处理下的脲酶与中性磷酸酶活性均有所提高,而低氮处理下天然林中的多酚氧化酶与人工林中的蔗糖酶显著低于对照,中氮、高氮处理下过氧化物酶、多酚氧化酶、天然林中的纤维素酶以及人工林中的蔗糖酶显著降低。总的来说,人工模拟氮沉降促进了土壤中脲酶和中性磷酸酶的活性,抑制了过氧化物酶和多酚氧化酶的活性,并降低了天然林土壤中的纤维素酶活性和人工林中的蔗糖酶活性,但对天然林中蔗糖酶和人工林中的纤维素酶无影响。主导木质素降解的多酚氧化酶活性与纤维素酶、蔗糖酶活性显著相关,纤维素酶与蔗糖酶活性的下降可能是由木质素降解受到抑制,土壤微生物可利用碳源减少所引起。另外,受到天然林土壤含氮量较高的影响,与人工林相比,天然林的多酚氧化酶活性对模拟氮沉降更敏感。由于被抑制的酶均与土壤有机质降解密切相关,氮沉降增加将减缓山西油松林土壤有机质的降解,有利于有机质在土壤中的积累。