高寒草原具有独特的自然生境和生物资源,对高寒草原开展系统研究对于减缓气候变化与草原恢复具有重要实践意义。以往研究主要针对高寒草原生物量碳开展整体评估,缺乏对不同群落类型间的定量比较。本文分析了高寒草原10种主要典型植物群...高寒草原具有独特的自然生境和生物资源,对高寒草原开展系统研究对于减缓气候变化与草原恢复具有重要实践意义。以往研究主要针对高寒草原生物量碳开展整体评估,缺乏对不同群落类型间的定量比较。本文分析了高寒草原10种主要典型植物群落地上-地下生物量碳分布格局以及对总生物量碳的贡献差异。结果表明:高寒草原面积为167.33×10^6hm^2,总生物量碳为1.53 Pg(1 Pg=1015g),其中地上生物量碳0.19 Pg,地下生物量碳1.34 Pg;紫花针茅、青藏苔草和紫花针茅-小蒿草群落面积大,生物量碳密度高,为高寒草原贡献了69.3%的生物量碳。高寒草原平均生物量碳密度为690.80 g C·m^-2,其中紫花针茅群落(196.14 g C·m^-2)和蔷薇群落(177.93 g C·m^-2)具有最高的地上生物量碳密度(AGC);蔷薇(1491.18 g C·m^-2)和紫花针茅-小蒿草群落(1306.51 g C·m^-2)则具有最高的地下生物量碳密度(BGC),且显著高于其他群落类型(P<0.05)。不同群落的BGC在土壤中的垂直分布格局存在较大差异,驼绒藜、盐爪爪、金露梅、紫花针茅、青藏苔草、紫花针茅-小蒿草、蔷薇、固沙草、砂生槐等群落的BGC主要集中在表层土壤(0~10 cm),分布曲线呈指数函数,而华扁穗草群落的BGC则集中在40~60 cm土壤层,分布曲线呈二次函数关系。对草原植物群落的地上-地下生物量碳开展评估,可以提高生物量碳的估算精度,为草原生态管理提供更有力的数据支持。展开更多
Almost three-fourths of forests are experiencing anthropogenic disturbances globally, and more than two-thirds of the forests in Nepal receive different types of disturbances. In community forests(CFs), local communit...Almost three-fourths of forests are experiencing anthropogenic disturbances globally, and more than two-thirds of the forests in Nepal receive different types of disturbances. In community forests(CFs), local communities are dependent on the ecosystem services provided by the forests for various aspects of their livelihoods, which disturb the forests’ natural conditions and ecosystem functioning in a variety of ways. This study tested the major disturbance factors that had influential roles on plant species diversity, recruitment(seedlings and saplings), biomass, soil organic carbon(SOC) and total carbon density in two community-managed forests in the Mid-hills of Nepal. The stump number, cut-off seedlings and saplings, lopping, dropping, and grazing/trampling were used as measures of the major anthropogenic disturbances. The necessary data were collected from 89 randomly selected sample plots, each with an area of 250 m2. The responses to anthropogenic disturbances were analyzed using Generalized Linear Models(GLM). The results showed that forest lopping was the most significant anthropogenic disturbance for biomass and total carbon density balance. A higher degree of lopping in the forests resulted in a lowering of the forests’ carbon stock in the study area. SOC showed no significant response to any of the tested anthropogenic disturbances. Woody species richness and number of saplings increased with an increasing number of stumps, which signifies that intermediate disturbance was beneficial. However, a higher intensity of lopping reduced the sapling density. Grazing/trampling was the most significant disturbance for inhibiting seedling growth. Areas in the forests with a higher intensity of trampling showed lower numbers of seedlings and saplings. These results will be a guide for managing anthropogenic disturbances in multiple-use forests in Nepal, as well as those in similar socio-economic environments worldwide.展开更多
Land degradation causes great changes in the soil biological properties.The process of degradation may decrease soil microbial biomass and consequently decrease soil microbial activity.The study was conducted out duri...Land degradation causes great changes in the soil biological properties.The process of degradation may decrease soil microbial biomass and consequently decrease soil microbial activity.The study was conducted out during 2009 and 2010 at the four sites of land under native vegetation(NV),moderately degraded land(LDL),highly degraded land(HDL) and land under restoration for four years(RL) to evaluate changes in soil microbial biomass and activity in lands with different degradation levels in comparison with both land under native vegetation and land under restoration in Northeast Brazil.Soil samples were collected at 0-10 cm depth.Soil organic carbon(SOC),soil microbial biomass C(MBC) and N(MBN),soil respiration(SR),and hydrolysis of fluorescein diacetate(FDA) and dehydrogenase(DHA) activities were analyzed.After two years of evaluation,soil MBC,MBN,FDA and DHA had higher values in the NV,followed by the RL.The decreases of soil microbial biomass and enzyme activities in the degraded lands were approximately 8-10 times as large as those found in the NV.However,after land restoration,the MBC and MBN increased approximately 5-fold and 2-fold,respectively,compared with the HDL.The results showed that land degradation produced a strong decrease in soil microbial biomass.However,land restoration may promote short-and long-term increases in soil microbial biomass.展开更多
文摘高寒草原具有独特的自然生境和生物资源,对高寒草原开展系统研究对于减缓气候变化与草原恢复具有重要实践意义。以往研究主要针对高寒草原生物量碳开展整体评估,缺乏对不同群落类型间的定量比较。本文分析了高寒草原10种主要典型植物群落地上-地下生物量碳分布格局以及对总生物量碳的贡献差异。结果表明:高寒草原面积为167.33×10^6hm^2,总生物量碳为1.53 Pg(1 Pg=1015g),其中地上生物量碳0.19 Pg,地下生物量碳1.34 Pg;紫花针茅、青藏苔草和紫花针茅-小蒿草群落面积大,生物量碳密度高,为高寒草原贡献了69.3%的生物量碳。高寒草原平均生物量碳密度为690.80 g C·m^-2,其中紫花针茅群落(196.14 g C·m^-2)和蔷薇群落(177.93 g C·m^-2)具有最高的地上生物量碳密度(AGC);蔷薇(1491.18 g C·m^-2)和紫花针茅-小蒿草群落(1306.51 g C·m^-2)则具有最高的地下生物量碳密度(BGC),且显著高于其他群落类型(P<0.05)。不同群落的BGC在土壤中的垂直分布格局存在较大差异,驼绒藜、盐爪爪、金露梅、紫花针茅、青藏苔草、紫花针茅-小蒿草、蔷薇、固沙草、砂生槐等群落的BGC主要集中在表层土壤(0~10 cm),分布曲线呈指数函数,而华扁穗草群落的BGC则集中在40~60 cm土壤层,分布曲线呈二次函数关系。对草原植物群落的地上-地下生物量碳开展评估,可以提高生物量碳的估算精度,为草原生态管理提供更有力的数据支持。
文摘Almost three-fourths of forests are experiencing anthropogenic disturbances globally, and more than two-thirds of the forests in Nepal receive different types of disturbances. In community forests(CFs), local communities are dependent on the ecosystem services provided by the forests for various aspects of their livelihoods, which disturb the forests’ natural conditions and ecosystem functioning in a variety of ways. This study tested the major disturbance factors that had influential roles on plant species diversity, recruitment(seedlings and saplings), biomass, soil organic carbon(SOC) and total carbon density in two community-managed forests in the Mid-hills of Nepal. The stump number, cut-off seedlings and saplings, lopping, dropping, and grazing/trampling were used as measures of the major anthropogenic disturbances. The necessary data were collected from 89 randomly selected sample plots, each with an area of 250 m2. The responses to anthropogenic disturbances were analyzed using Generalized Linear Models(GLM). The results showed that forest lopping was the most significant anthropogenic disturbance for biomass and total carbon density balance. A higher degree of lopping in the forests resulted in a lowering of the forests’ carbon stock in the study area. SOC showed no significant response to any of the tested anthropogenic disturbances. Woody species richness and number of saplings increased with an increasing number of stumps, which signifies that intermediate disturbance was beneficial. However, a higher intensity of lopping reduced the sapling density. Grazing/trampling was the most significant disturbance for inhibiting seedling growth. Areas in the forests with a higher intensity of trampling showed lower numbers of seedlings and saplings. These results will be a guide for managing anthropogenic disturbances in multiple-use forests in Nepal, as well as those in similar socio-economic environments worldwide.
基金Supported by the National Council for Scientific and Technological Development,Brazil (No. 577148/2008-7)
文摘Land degradation causes great changes in the soil biological properties.The process of degradation may decrease soil microbial biomass and consequently decrease soil microbial activity.The study was conducted out during 2009 and 2010 at the four sites of land under native vegetation(NV),moderately degraded land(LDL),highly degraded land(HDL) and land under restoration for four years(RL) to evaluate changes in soil microbial biomass and activity in lands with different degradation levels in comparison with both land under native vegetation and land under restoration in Northeast Brazil.Soil samples were collected at 0-10 cm depth.Soil organic carbon(SOC),soil microbial biomass C(MBC) and N(MBN),soil respiration(SR),and hydrolysis of fluorescein diacetate(FDA) and dehydrogenase(DHA) activities were analyzed.After two years of evaluation,soil MBC,MBN,FDA and DHA had higher values in the NV,followed by the RL.The decreases of soil microbial biomass and enzyme activities in the degraded lands were approximately 8-10 times as large as those found in the NV.However,after land restoration,the MBC and MBN increased approximately 5-fold and 2-fold,respectively,compared with the HDL.The results showed that land degradation produced a strong decrease in soil microbial biomass.However,land restoration may promote short-and long-term increases in soil microbial biomass.
