[Objective]The research aimed to understand water conservation capacity of litter from different forest types in Caohai basin. [Method] Current storage amount,water holding capacity and precipitation interception abil...[Objective]The research aimed to understand water conservation capacity of litter from different forest types in Caohai basin. [Method] Current storage amount,water holding capacity and precipitation interception ability of litter from 4 types of forest were investigated and studied. [Result]The order of exist litter amount was grass slope >shrub forest >mixed broad leaf-conifer forest >coniferous forest. The order of natural water holding capacity was mixed broad leafconifer forest > coniferous forest > grass slope > shrub forest. The relevance between water holding capacity of litter and soaking time was in line with this formula: y = kln( x) + b. During 0-120 min of litter soaking,water holding capacity increased rapidly. After 120 min,the increasing trend remained flat until closing to the maximum water holding capacity. The relevance between water absorption rate of litter and soaking time was in line with this formula: y = a + bx-1. In the beginning of soaking,water absorption rates of litter from different woodlands showed great difference. As soaking time went by,water absorption rates of litter from different woodlands all declined sharply. During 0-120 min,declining velocity of water absorption rate was quicker. After 120 min,the declining trend tended to be slow. The maximum water holding capacity of litter presented the order of shrub forest > mixed broad leafconifer forest > grass slope > coniferous forest. The maximum precipitation interception amount of litter presented the order of shrub forest > grass slope > mixed broad leafconifer forest > coniferous forest. Effective impounding capacity of litter presented the order of shrub forest > mixed broad leafconifer forest > grass slope > coniferous forest. [Conclusion]The research could provide support for the construction of water conservation forest in Caohai basin.展开更多
Bacteria are important regulators of carbon cycling in lakes and are central to sediment ecosystem processes.However,the sediment microbial communities and their respiratory responses to the lake wetland succession ar...Bacteria are important regulators of carbon cycling in lakes and are central to sediment ecosystem processes.However,the sediment microbial communities and their respiratory responses to the lake wetland succession are poorly understood.In this study,we collected sediment samples from four different succession points(the Potamogeton lucens zone,the Scirpus tabernaemontani zone,the Scirpus triqueter zone,and the Juncus effusus zone)in the Caohai Wetland of the Guizhou Plateau(China).The bacterial communities at these succession points were studied using a high-throughput sequencing approach.The sediment microbial respiration(SR)was measured using static chambers in the field and basal respiration(BR)was determined in the laboratory.The results show that the dominant bacterial taxa in the sediment was Proteobacteria(34.7%),Chloroflexi(17.8%),Bacteroidetes(7.3%),Acidobacteria(6.6%),and Cyanobacteria(6.1%).Principal coordinate analysis showed that the microbial community structure differs significantly at different sampling points along the successional gradient,indicating that the bacterial community structure is sensitive to the lake wetland succession.Different hydrological regimes and soil characteristics such as NH_(4)^(+)-N,Fe^(2+),Mn^(2+),and sediment organic carbon(SOC)content may be important factors responsible for the differences in the sediment microbial characteristics of the different successional stages in the Caohai wetland.Additionally,it was found that the SR increased significantly from the P.lucens zone to the J.effusus zone,but BR had the opposite response.The shifts in the bacterial community structure along the successional gradient may be the main reason for the observed differences in sediment respiration.展开更多
Vegetation maps are important sources of information for biodiversity conservation,ecological studies,vegetation management and restoration,and national strategic decision making.The current Vegetation Map of China(1:...Vegetation maps are important sources of information for biodiversity conservation,ecological studies,vegetation management and restoration,and national strategic decision making.The current Vegetation Map of China(1:1000000)was generated by a team of more than 250 scientists in an effort that lasted over 20 years starting in the 1980s.However,the vegetation distribution of China has experienced drastic changes during the rapid development of China in the last three decades,and it urgently needs to be updated to better represent the distribution of current vegetation types.Here,we describe the process of updating the Vegetation Map of China(1:1000000)generated in the 1980s using a‘‘crowdsourcing-change detection-classification-expert knowledge"vegetation mapping strategy.A total of 203,024 field samples were collected,and 50 taxonomists were involved in the updating process.The resulting updated map has 12 vegetation type groups,55 vegetation types/subtypes,and 866 vegetation formation/sub-formation types.The overall accuracy and kappa coefficient of the updated map are 64.8%and 0.52 at the vegetation type group level,61%and 0.55 at the vegetation type/subtype level and 40%and 0.38 at the vegetation formation/sub-formation level.When compared to the original map,the updated map showed that 3.3 million km^2 of vegetated areas of China have changed their vegetation type group during the past three decades due to anthropogenic activities and climatic change.We expect this updated map to benefit the understanding and management of China’s terrestrial ecosystems.展开更多
Super-refractory status epilepticus(SRSE)is a serious and life-threatening neurological condition.Ketogenic diet(KD)is a diet characterized by high fat,low carbohydrate,and moderate protein.As KD shows effectiveness i...Super-refractory status epilepticus(SRSE)is a serious and life-threatening neurological condition.Ketogenic diet(KD)is a diet characterized by high fat,low carbohydrate,and moderate protein.As KD shows effectiveness in controlling seizures in more than half of SRSE patients,it can be a treatment option for SRSE.Currently,KD treatment for SRSE is based on personal experience and observational evidence has been published.In the context of a lack of a validated guideline,we convened a multicenter expert panel within the China Association Against Epilepsy(CAAE)Ketogenic Diet Commission to work out the Chinese expert recommendations on KD for SRSE.We summarize and discuss the latest clinical practice of KD for SRSE in critical care settings.Recommendations are given on patient selection,the timing of KD,diet implementation,and follow-up.More research data are needed in this area to support better clinical practice.展开更多
基金Supported by National "Twelfth Five-year"Science and Technology Support Plan,China(2011BAC02B02)Graduate Innovation Fund of Guizhou University,China
文摘[Objective]The research aimed to understand water conservation capacity of litter from different forest types in Caohai basin. [Method] Current storage amount,water holding capacity and precipitation interception ability of litter from 4 types of forest were investigated and studied. [Result]The order of exist litter amount was grass slope >shrub forest >mixed broad leaf-conifer forest >coniferous forest. The order of natural water holding capacity was mixed broad leafconifer forest > coniferous forest > grass slope > shrub forest. The relevance between water holding capacity of litter and soaking time was in line with this formula: y = kln( x) + b. During 0-120 min of litter soaking,water holding capacity increased rapidly. After 120 min,the increasing trend remained flat until closing to the maximum water holding capacity. The relevance between water absorption rate of litter and soaking time was in line with this formula: y = a + bx-1. In the beginning of soaking,water absorption rates of litter from different woodlands showed great difference. As soaking time went by,water absorption rates of litter from different woodlands all declined sharply. During 0-120 min,declining velocity of water absorption rate was quicker. After 120 min,the declining trend tended to be slow. The maximum water holding capacity of litter presented the order of shrub forest > mixed broad leafconifer forest > grass slope > coniferous forest. The maximum precipitation interception amount of litter presented the order of shrub forest > grass slope > mixed broad leafconifer forest > coniferous forest. Effective impounding capacity of litter presented the order of shrub forest > mixed broad leafconifer forest > grass slope > coniferous forest. [Conclusion]The research could provide support for the construction of water conservation forest in Caohai basin.
基金Supported by the National Natural Science Foundation of China(Nos.41867056,31660150)the Construction Program of Biology First-class Discipline in Guizhou(No.GNYL[2017]009)the Joint Fund of the National Natural Science Foundation of China,and the Karst Science Research Center of Guizhou Province(No.U1812401)。
文摘Bacteria are important regulators of carbon cycling in lakes and are central to sediment ecosystem processes.However,the sediment microbial communities and their respiratory responses to the lake wetland succession are poorly understood.In this study,we collected sediment samples from four different succession points(the Potamogeton lucens zone,the Scirpus tabernaemontani zone,the Scirpus triqueter zone,and the Juncus effusus zone)in the Caohai Wetland of the Guizhou Plateau(China).The bacterial communities at these succession points were studied using a high-throughput sequencing approach.The sediment microbial respiration(SR)was measured using static chambers in the field and basal respiration(BR)was determined in the laboratory.The results show that the dominant bacterial taxa in the sediment was Proteobacteria(34.7%),Chloroflexi(17.8%),Bacteroidetes(7.3%),Acidobacteria(6.6%),and Cyanobacteria(6.1%).Principal coordinate analysis showed that the microbial community structure differs significantly at different sampling points along the successional gradient,indicating that the bacterial community structure is sensitive to the lake wetland succession.Different hydrological regimes and soil characteristics such as NH_(4)^(+)-N,Fe^(2+),Mn^(2+),and sediment organic carbon(SOC)content may be important factors responsible for the differences in the sediment microbial characteristics of the different successional stages in the Caohai wetland.Additionally,it was found that the SR increased significantly from the P.lucens zone to the J.effusus zone,but BR had the opposite response.The shifts in the bacterial community structure along the successional gradient may be the main reason for the observed differences in sediment respiration.
基金supported by the Strategic Priority Research Program of Chinese Academy of Sciences(XDA19050401)Maps in this article were reviewed by Ministry of Natural Resources of the People’s Republic of China(GS(2020)1044)。
文摘Vegetation maps are important sources of information for biodiversity conservation,ecological studies,vegetation management and restoration,and national strategic decision making.The current Vegetation Map of China(1:1000000)was generated by a team of more than 250 scientists in an effort that lasted over 20 years starting in the 1980s.However,the vegetation distribution of China has experienced drastic changes during the rapid development of China in the last three decades,and it urgently needs to be updated to better represent the distribution of current vegetation types.Here,we describe the process of updating the Vegetation Map of China(1:1000000)generated in the 1980s using a‘‘crowdsourcing-change detection-classification-expert knowledge"vegetation mapping strategy.A total of 203,024 field samples were collected,and 50 taxonomists were involved in the updating process.The resulting updated map has 12 vegetation type groups,55 vegetation types/subtypes,and 866 vegetation formation/sub-formation types.The overall accuracy and kappa coefficient of the updated map are 64.8%and 0.52 at the vegetation type group level,61%and 0.55 at the vegetation type/subtype level and 40%and 0.38 at the vegetation formation/sub-formation level.When compared to the original map,the updated map showed that 3.3 million km^2 of vegetated areas of China have changed their vegetation type group during the past three decades due to anthropogenic activities and climatic change.We expect this updated map to benefit the understanding and management of China’s terrestrial ecosystems.
基金This work was supported by the Horizontal Scientific Research Project of Sichuan University(No.20H0072).
文摘Super-refractory status epilepticus(SRSE)is a serious and life-threatening neurological condition.Ketogenic diet(KD)is a diet characterized by high fat,low carbohydrate,and moderate protein.As KD shows effectiveness in controlling seizures in more than half of SRSE patients,it can be a treatment option for SRSE.Currently,KD treatment for SRSE is based on personal experience and observational evidence has been published.In the context of a lack of a validated guideline,we convened a multicenter expert panel within the China Association Against Epilepsy(CAAE)Ketogenic Diet Commission to work out the Chinese expert recommendations on KD for SRSE.We summarize and discuss the latest clinical practice of KD for SRSE in critical care settings.Recommendations are given on patient selection,the timing of KD,diet implementation,and follow-up.More research data are needed in this area to support better clinical practice.
