江西农业大学学报
江西農業大學學報
강서농업대학학보
ACTA AGRICULTURAE UNIVERSITATIS JIANGXIENSIS
2010年
1期
101-107
,共7页
张水印%余明泉%朱玲%秦晓蕾
張水印%餘明泉%硃玲%秦曉蕾
장수인%여명천%주령%진효뢰
退化红壤%重建森林%微生物量C、N
退化紅壤%重建森林%微生物量C、N
퇴화홍양%중건삼림%미생물량C、N
degraded red soil%rehabilitating forest%microbial biomass C,N
以地处江西省泰和县的退化红壤区不同植被重建模式的森林为研究对象,采用氯仿熏蒸浸提法测定不同植被重建模式森林土壤微生物量C、N的季节变化,结果表明:不同的植被重建模式对土壤微生物量C、N的影响均达到极显著(P<0.001),微生物量N大小依次表现为:阔叶林(33.67mg/kg)、针阔混交林(30.64mg/kg)、无林荒草地(28.09mg/kg)、针叶林(23.46mg/kg);微生物C量大小依次表现为:阔叶林(181.67mg/kg)、针阔混交林(162.75mg/kg)、无林荒草地(139.68mg/kg)、针叶林(136.57mg/kg).季节对微生物量N的影响差异为极显著(P<0.001),对微生物量C的影响差异为显著(P<0.05),微生物量C、N均表现为夏、秋季高于春、冬季.微生物量C、N均与土壤全N、全C呈显著相关,能有效地反映土壤的肥力状况.综合来看,不同植被恢复模式中阔叶林最好,其次为针阔混交林、无林荒草地和针叶林.
以地處江西省泰和縣的退化紅壤區不同植被重建模式的森林為研究對象,採用氯倣熏蒸浸提法測定不同植被重建模式森林土壤微生物量C、N的季節變化,結果錶明:不同的植被重建模式對土壤微生物量C、N的影響均達到極顯著(P<0.001),微生物量N大小依次錶現為:闊葉林(33.67mg/kg)、針闊混交林(30.64mg/kg)、無林荒草地(28.09mg/kg)、針葉林(23.46mg/kg);微生物C量大小依次錶現為:闊葉林(181.67mg/kg)、針闊混交林(162.75mg/kg)、無林荒草地(139.68mg/kg)、針葉林(136.57mg/kg).季節對微生物量N的影響差異為極顯著(P<0.001),對微生物量C的影響差異為顯著(P<0.05),微生物量C、N均錶現為夏、鞦季高于春、鼕季.微生物量C、N均與土壤全N、全C呈顯著相關,能有效地反映土壤的肥力狀況.綜閤來看,不同植被恢複模式中闊葉林最好,其次為針闊混交林、無林荒草地和針葉林.
이지처강서성태화현적퇴화홍양구불동식피중건모식적삼림위연구대상,채용록방훈증침제법측정불동식피중건모식삼림토양미생물량C、N적계절변화,결과표명:불동적식피중건모식대토양미생물량C、N적영향균체도겁현저(P<0.001),미생물량N대소의차표현위:활협림(33.67mg/kg)、침활혼교림(30.64mg/kg)、무림황초지(28.09mg/kg)、침협림(23.46mg/kg);미생물C량대소의차표현위:활협림(181.67mg/kg)、침활혼교림(162.75mg/kg)、무림황초지(139.68mg/kg)、침협림(136.57mg/kg).계절대미생물량N적영향차이위겁현저(P<0.001),대미생물량C적영향차이위현저(P<0.05),미생물량C、N균표현위하、추계고우춘、동계.미생물량C、N균여토양전N、전C정현저상관,능유효지반영토양적비력상황.종합래간,불동식피회복모식중활협림최호,기차위침활혼교림、무림황초지화침협림.
The rehabilitated forest of different models in a degraded red soil region located in Taihe County,Jiangxi Province was taken as the object of the study. The season variation of soil microbial biomass C,N was investigated by chloroform fumigation extraction method. The results are described as follows: (1)The soil microbial biomass C,N were significantly affected by different rehabilitating models(P<0.001). The soil microbial biomass N in the forests was ranked: broad-leaved forest(33.67 mg/kg)、coniferous-broadleaved mixed forest(30.64 mg/kg)、grassland(28.09 mg/kg)、coniferous forest,and the microbial biomass C was ranked:broad-leaved forest(181.67 mg/kg)、coniferous-broadleaved mixed forest(162.75 mg/kg)、grassland (139.68 mg/kg)、coniferous forest (136.57 mg/kg).Seasons significantly affected the soil microbial biomass N(P<0.001) and had a notable effect on the soil microbial biomass C(P<0.05). The soil microbial biomass C and N were higher in summer and autumn than in spring and winter.The soil microbial biomass C and N were notably associated with the total nitrogen in soil and could effectively reflect the status of soil fertility. In general,broadleaf forest was the best model in the different rehabilitating forests,followed by coniferous-broadleaved mixed forest,grassland and coniferous forest.
