The term forest transition refers to a change in forest cover over a given area from a period of net forest area loss to a period of net gain. Whether transitioning from deforestation to reforestation can lead to impr...The term forest transition refers to a change in forest cover over a given area from a period of net forest area loss to a period of net gain. Whether transitioning from deforestation to reforestation can lead to improved ecosystem services, depends on the quality and characteristics of the newly established forest cover. Using publicly available data, we examine forest transition in two regions of tropical China: Hainan Island and Xishuangbanna. We found that the overall increase of forest cover in both areas during the1980 s was due to an increase in plantation forests rather than to increases in the area covered by natural forest. We also found a time lag between the increase in overall forest cover and an increase in natural forest. On Hainan Island, natural forest continued to decline beyond the point in time when overall forest cover had started to increase, and only began to recover ten years after the turning point in 1978. In Xishuangbanna, where the transition point occurred ten years later, the decline of natural forest cover is still going on. These divergent trends underlying forest transition are concealed by the continued practice to apply the term "forest" broadly, without distinguishing between natural forests and planted forests.Due to the use of undiscriminating terminology, the loss of natural forest may go unnoticed, increasing the risk of plantation forests displacing natural forests in the course of forest transition. Our findings are important for programs related to forest management and ecosystem services improvement, including reforestation and Payments for Ecosystem Services programs.展开更多
Vegetation,elevation gradient and soil temperature are considered as major drivers of ECM fungi species richness.ECM sporocarps were collected during rainy seasons for two years to study the link between the distribut...Vegetation,elevation gradient and soil temperature are considered as major drivers of ECM fungi species richness.ECM sporocarps were collected during rainy seasons for two years to study the link between the distribution of ECM mushrooms with Castonopsis echinocarpa,Parashorea chinensis,and Pittosporopsis kerrii with varying elevations and soil temperatures,in a tropical rain forest Xishuangbanna,Yunnan,China.For each tree species,60 trees of approximately the same size were selected,where half of them were growing at higher elevation levels and the rest at lower levels.The highest total counts of ECM fungi,as well as the highest species richness were produced by P.chinensis followed by C.echinocarpa and P.kerrii.Highest species richness was shown in September by P.chinensis,while P.kerrii trees had the lowest count of mushrooms across rainy seasons.Species of Boletales were recorded with highest species richness followed by species of order Agaricales around both C.echinocarpa and P.chinensis.ECM fungi count declined with increased elevation.Furthermore,fungi species richness increased positively with increased soil temperature in a tropical seasonal rainforest.展开更多
Climatic extremes such as drought have becoming a severe climate-related problem in many regions all over the world that can induce anomalies in vegetation condition. Growth and CO2 uptake by plants are constrained to...Climatic extremes such as drought have becoming a severe climate-related problem in many regions all over the world that can induce anomalies in vegetation condition. Growth and CO2 uptake by plants are constrained to a large extent by drought.Therefore, it is important to understand the spatial and temporal responses of vegetation to drought across the various land cover types and different regions. Leaf area index(LAI) derived from Global Land Surface Satellite(GLASS) data was used to evaluate the response of vegetation to drought occurrence across Yunnan Province, China(2001-2010). The meteorological drought was assessed based on Standardized Precipitation Index(SPI)values. Pearson's correlation coefficients between LAI and SPI were examined across several timescales within six sub-regions of the Yunnan. Further, the drought-prone area was identified based on LAI anomaly values. Lag and cumulative effects of lack of precipitation on vegetation were evident, with significant correlations found using 3-, 6-, 9-and 12-month timescale. We found 9-month timescale has higher correlations compared to another timescale.Approximately 29.4% of Yunnan's area was classified as drought-prone area, based on the LAI anomaly values. Most of this drought-prone area was distributed in the mountainous region of Yunnan.From the research, it is evident that GLASS LAI can be effectively used as an indicator for assessing drought conditions and it provide valuable information for drought risk defense and preparedness.展开更多
The endangered Vatica mangachapoi,a longlived,tropical tree with economic and ecological importance found in Hainan,China,was used to assess the hypothesis that historical human activities in Hainan’s tropical rain f...The endangered Vatica mangachapoi,a longlived,tropical tree with economic and ecological importance found in Hainan,China,was used to assess the hypothesis that historical human activities in Hainan’s tropical rain forest could have negative effects on the genetic diversity of V.mangachapoi.Three hundred and twenty individuals from 11 natural populations—which were classified into three groups according to levels of disturbance—were sampled and analyzed with ISSRmarkers.Although genetic diversity of V.mangachapoi is high at the species level,it is relatively low within populations.A significant genetic differentiation occurs among different disturbance levels.Significant isolation-by-distance indicated relevant historical anthropogenic changes.Our findings showed that historical human disturbances significantly increase the genetic differentiation and slightly decrease the genetic diversity of long-lived tree V.mangachapoi.Relevant targeting conservation actions were recommended.展开更多
This review succinctly discusses data on morphology,systematics,ecology and biochemical properties of all the Entoloma species from Yunnan Province,China.We also propose directions for future research on Entoloma.Alto...This review succinctly discusses data on morphology,systematics,ecology and biochemical properties of all the Entoloma species from Yunnan Province,China.We also propose directions for future research on Entoloma.Altogether,8 species of Entoloma have been reported in the present study.Entoloma sinuatum and E.mengsongense showed the most contrasting variation in colour and size of the basidiomes while E.mengsongense and E.yunnanense were found to display wide variations in spore morphology.Most species are saprotrophic except E.caeruleoflavum and E.sinuatum which form mycorrhizal associations.Knowledge on biochemical and other chemical attributes of the genus are minimal although such details would help for better utilization of the genus.展开更多
Panus conchatus is a species of lentinoid fungi in the family Polyporaceae.This species is characterized by its concave,smooth,deeply decurrent gills,with distinctive purple grey to greyish magenta basidiocarps.This f...Panus conchatus is a species of lentinoid fungi in the family Polyporaceae.This species is characterized by its concave,smooth,deeply decurrent gills,with distinctive purple grey to greyish magenta basidiocarps.This fungus is widely distributed in both tropical and temperate regions.Here,we report a specimen of P.conchatus collected from a temperate region in Yunnan Province,China.The specimen is described and illustrated based on macro-and micro-morphological characteristics.Phylogenetic analyses were done based on the sequence data of ITS and LSU,and the placement of the taxon was confirmed.This is the first time P.conchatus has been reported with molecular phylogenetic data from China.Full description,illustrations,color photographs,and a phylogenetic tree to show the placement of P.conchatus are provided.展开更多
Mushrooms can be found in forests worldwide and have long been exploited as resources in developed economies because of their important agro-industrial,medicinal and commercial uses.For less developed countries,such a...Mushrooms can be found in forests worldwide and have long been exploited as resources in developed economies because of their important agro-industrial,medicinal and commercial uses.For less developed countries,such as those within the Greater Mekong Subregion,wild harvesting and mushroom cultivation provides a much-needed alternative source of income for rural households.However,this has led to over-harvesting and ultimately environmental degradation in certain areas,thus management guidelines allowing for a more sustained approach to the use of wild mushrooms is required.This article addresses a selection of the most popular and highly sought after edible mushrooms from Greater Mekong Subregion:Astraeus hygrometricus,Boletus edulis,Morchella conica,Ophiocordyceps sinensis,Phlebopus portentosus,Pleurotus giganteus,Termitomyces eurhizus,Thelephora ganbajun,Tricholoma matsuake,and Tuber indicum in terms of value,ecology and conservation.The greatest threat to these and many other mushroom species is that of habitat loss and over-harvesting of wild stocks,thus,by creating awareness of these issues we wish to enable a more sustainable use of these natural products.Thus our paper provides baseline data for these fungi so that future monitoring can establish the effects of continued harvesting on mushroom populations and the related host species.展开更多
Climate change affects various facets of life but there is little data on its effects on wild mushroom fruiting.Yunnan Province in China is a rich source of wild mushrooms and has experienced a temperature rise over r...Climate change affects various facets of life but there is little data on its effects on wild mushroom fruiting.Yunnan Province in China is a rich source of wild mushrooms and has experienced a temperature rise over recent decades.This has resulted in warmer temperatures but the impacts of these changes on mushroom production lack documentation.We collected data on the fruiting of the highly prized matsutake mushroom(Tricholoma matsutake)in West Yunnan,China over an 11 year period from 2000 to 2010.Fruiting phenology and productivity were compared against the driving meteorological variables using Projection to Latent Structure regression.The mushrooms appeared later in the season during the observation period,which is most likely explained by rising temperatures and reduced rain during May and June.High temperature and abundant rain in August resulted in good productivity.The climate response of matsutake production results from a sequence of processes that are possibly linked with regulatory signals and resource availability.To advance the knowledge of this complex system,a holistic research approach integrating biology,ecology,genetics,physiology,and phytochemistry is needed.Our results contribute to a general model of fungal ecology,which can be used to predict the responses of fungi to global climate change.展开更多
Several research efforts have focused primarily on policy implementation and improving innovative actions to address disaster risks. Discussions are ongoing on how to measure the effectiveness of policy implementation...Several research efforts have focused primarily on policy implementation and improving innovative actions to address disaster risks. Discussions are ongoing on how to measure the effectiveness of policy implementation at the local level. But there is no definitive theory of effective policy implementation, and very few frameworks have been found acceptable as the basis of an analysis of the effectiveness of policy implementation, especially on droughts. Based on the 2009–2010 extreme drought in Yunnan, China, this article presents a modified framework to assess the effectiveness of policy implementation by defining policy, practice, and performance, as well as a feedback loop by which to share the lessons learned. Water conservancy projects in Luliang County and the agricultural diversity program in Longyang County in Yunnan Province were analyzed from a farmers' perspective. It was found that farmers are highly dependent on government policies and projects, and the effectiveness of policies is measured by short-term, immediate, and tangible benefits rather than long-term adaptation strategies. The results highlight the urgent need to reduce risks by developing better awareness about climate change and drought and its impacts, increased understanding of drought hazards, and implementation of appropriate measures for long-term adaptation.展开更多
基金funded by the National Natural Science Foundation of China (Grant 31300403)the China Postdoctoral Science Foundation (Grant 2013M540722)+2 种基金part of the CGIAR Research Program 6:Forests, Trees, and Agroforestrypart of the BMZ/GIZ "Green Rubber"(Project No. 13.1432.7-001.00)'SURUMER' (Project No. 01LL0919A) funded by the German Federal Ministry of Education and Research(BMBF) under Grant number FKZ 01LL0919
文摘The term forest transition refers to a change in forest cover over a given area from a period of net forest area loss to a period of net gain. Whether transitioning from deforestation to reforestation can lead to improved ecosystem services, depends on the quality and characteristics of the newly established forest cover. Using publicly available data, we examine forest transition in two regions of tropical China: Hainan Island and Xishuangbanna. We found that the overall increase of forest cover in both areas during the1980 s was due to an increase in plantation forests rather than to increases in the area covered by natural forest. We also found a time lag between the increase in overall forest cover and an increase in natural forest. On Hainan Island, natural forest continued to decline beyond the point in time when overall forest cover had started to increase, and only began to recover ten years after the turning point in 1978. In Xishuangbanna, where the transition point occurred ten years later, the decline of natural forest cover is still going on. These divergent trends underlying forest transition are concealed by the continued practice to apply the term "forest" broadly, without distinguishing between natural forests and planted forests.Due to the use of undiscriminating terminology, the loss of natural forest may go unnoticed, increasing the risk of plantation forests displacing natural forests in the course of forest transition. Our findings are important for programs related to forest management and ecosystem services improvement, including reforestation and Payments for Ecosystem Services programs.
基金supported by CGIAR-FTA Program and Key Research Program of the Ministry of Sciences and Technology(Grant No.2017YFC0505101)Samantha C.Karunarathna would like to thank the CAS President’s International Fellowship Initiative(PIFI)young staff under the grant number:2020FYC0002the National Science Foundation of China(NSFC)under the project code 31851110759.
文摘Vegetation,elevation gradient and soil temperature are considered as major drivers of ECM fungi species richness.ECM sporocarps were collected during rainy seasons for two years to study the link between the distribution of ECM mushrooms with Castonopsis echinocarpa,Parashorea chinensis,and Pittosporopsis kerrii with varying elevations and soil temperatures,in a tropical rain forest Xishuangbanna,Yunnan,China.For each tree species,60 trees of approximately the same size were selected,where half of them were growing at higher elevation levels and the rest at lower levels.The highest total counts of ECM fungi,as well as the highest species richness were produced by P.chinensis followed by C.echinocarpa and P.kerrii.Highest species richness was shown in September by P.chinensis,while P.kerrii trees had the lowest count of mushrooms across rainy seasons.Species of Boletales were recorded with highest species richness followed by species of order Agaricales around both C.echinocarpa and P.chinensis.ECM fungi count declined with increased elevation.Furthermore,fungi species richness increased positively with increased soil temperature in a tropical seasonal rainforest.
基金a part of the Project on "Building Effective Water Governance in the Asian Highlands" supported by Canada’s International Development Research Centre (IDRC)National Science Foundation of China, Grant No. 31270524the CGIAR research programs on ‘Climate change adaptation and mitigation’ (CRP6.4)
文摘Climatic extremes such as drought have becoming a severe climate-related problem in many regions all over the world that can induce anomalies in vegetation condition. Growth and CO2 uptake by plants are constrained to a large extent by drought.Therefore, it is important to understand the spatial and temporal responses of vegetation to drought across the various land cover types and different regions. Leaf area index(LAI) derived from Global Land Surface Satellite(GLASS) data was used to evaluate the response of vegetation to drought occurrence across Yunnan Province, China(2001-2010). The meteorological drought was assessed based on Standardized Precipitation Index(SPI)values. Pearson's correlation coefficients between LAI and SPI were examined across several timescales within six sub-regions of the Yunnan. Further, the drought-prone area was identified based on LAI anomaly values. Lag and cumulative effects of lack of precipitation on vegetation were evident, with significant correlations found using 3-, 6-, 9-and 12-month timescale. We found 9-month timescale has higher correlations compared to another timescale.Approximately 29.4% of Yunnan's area was classified as drought-prone area, based on the LAI anomaly values. Most of this drought-prone area was distributed in the mountainous region of Yunnan.From the research, it is evident that GLASS LAI can be effectively used as an indicator for assessing drought conditions and it provide valuable information for drought risk defense and preparedness.
基金partially supported by National Natural Science Foundation of China(31170386,31300403)the Natural Science Foundation of Jiangsu(BK20150503,BK20150504)+4 种基金Jiangsu University Research Foundation for Advanced Talents(14JDG010,15JDG032)the Natural Science Research Project of Higher Education of Jiangsu(14KJB610005)the Jiangsu Planned Projects for Postdoctoral Research Funds(1501028B)the Priority Academic Program Development of Jiangsu Higher Education Institutions(PAPD)the Jiangsu Collaborative Innovation Center of Technology and Material of Water Treatment
文摘The endangered Vatica mangachapoi,a longlived,tropical tree with economic and ecological importance found in Hainan,China,was used to assess the hypothesis that historical human activities in Hainan’s tropical rain forest could have negative effects on the genetic diversity of V.mangachapoi.Three hundred and twenty individuals from 11 natural populations—which were classified into three groups according to levels of disturbance—were sampled and analyzed with ISSRmarkers.Although genetic diversity of V.mangachapoi is high at the species level,it is relatively low within populations.A significant genetic differentiation occurs among different disturbance levels.Significant isolation-by-distance indicated relevant historical anthropogenic changes.Our findings showed that historical human disturbances significantly increase the genetic differentiation and slightly decrease the genetic diversity of long-lived tree V.mangachapoi.Relevant targeting conservation actions were recommended.
基金Kevin D.Hyde thanks the Chinese Academy of Sciences,project number 2013T2S0030the award of Visiting Professorship for Senior International Scientists at Kunming Institute of Botany.This study was funded by the Chinese Ministry of Science and Technology,under the 12th five-year National Key Technology Support Program(NKTSP)2013BAB07B06 for integration and comprehensive demonstration of key technologies on Green Phosphate-Mountain Construction+3 种基金the CGIAR Research Program 6:Forest,Trees and AgroforestryThailand Research Fund grant-Taxonomy,Phylogeny and Biochemistry of Thai Basidiomycetes(BRG 5580009)the National Research Council of Thailand NRCT)projects-Taxonomy,Phylogeny and Cultivation of Lentinus species in northern Thailand(NRCT/55201020007)Mae Fah Luang University,project-Taxonomy,Phylogeny and Cultivation of Lentinus species in Northern Thailand(MFU/54101020048).
文摘This review succinctly discusses data on morphology,systematics,ecology and biochemical properties of all the Entoloma species from Yunnan Province,China.We also propose directions for future research on Entoloma.Altogether,8 species of Entoloma have been reported in the present study.Entoloma sinuatum and E.mengsongense showed the most contrasting variation in colour and size of the basidiomes while E.mengsongense and E.yunnanense were found to display wide variations in spore morphology.Most species are saprotrophic except E.caeruleoflavum and E.sinuatum which form mycorrhizal associations.Knowledge on biochemical and other chemical attributes of the genus are minimal although such details would help for better utilization of the genus.
基金support given by the Key Laboratory for Plant Diversity and Biogeography of East Asia,Kunming Institute of Botany,Chinese Academy of Sciences,Kunming 650201,Yunnan Province,Chinathe Germplasm Bank of Wild Species,Kunming Institute of Botany,Kunming 650201,Yunnan,China for enabling our molecular phylogenetic work。
文摘Panus conchatus is a species of lentinoid fungi in the family Polyporaceae.This species is characterized by its concave,smooth,deeply decurrent gills,with distinctive purple grey to greyish magenta basidiocarps.This fungus is widely distributed in both tropical and temperate regions.Here,we report a specimen of P.conchatus collected from a temperate region in Yunnan Province,China.The specimen is described and illustrated based on macro-and micro-morphological characteristics.Phylogenetic analyses were done based on the sequence data of ITS and LSU,and the placement of the taxon was confirmed.This is the first time P.conchatus has been reported with molecular phylogenetic data from China.Full description,illustrations,color photographs,and a phylogenetic tree to show the placement of P.conchatus are provided.
基金funding this project.Also,value added products from basidiomycetes:Putting Thailand’s biodiversity to use(BRN049/2553)the French-Thai cooperation PHC SIAM 2011(project 25587RA)+2 种基金the National Research Council of Thailand(NRCT)the project-Taxonomy,Phylogeny and cultivation of Lentinus species in northern Thailand(NRCT/55201020007)Fund(TRF)project number BRG5580009 and Mae Fah Luang University,the project-Taxonomy,Phylogeny and cultivation of Lentinus species in northern Thailand(MFU/54101020048)are thanked for providing support to this study.
文摘Mushrooms can be found in forests worldwide and have long been exploited as resources in developed economies because of their important agro-industrial,medicinal and commercial uses.For less developed countries,such as those within the Greater Mekong Subregion,wild harvesting and mushroom cultivation provides a much-needed alternative source of income for rural households.However,this has led to over-harvesting and ultimately environmental degradation in certain areas,thus management guidelines allowing for a more sustained approach to the use of wild mushrooms is required.This article addresses a selection of the most popular and highly sought after edible mushrooms from Greater Mekong Subregion:Astraeus hygrometricus,Boletus edulis,Morchella conica,Ophiocordyceps sinensis,Phlebopus portentosus,Pleurotus giganteus,Termitomyces eurhizus,Thelephora ganbajun,Tricholoma matsuake,and Tuber indicum in terms of value,ecology and conservation.The greatest threat to these and many other mushroom species is that of habitat loss and over-harvesting of wild stocks,thus,by creating awareness of these issues we wish to enable a more sustainable use of these natural products.Thus our paper provides baseline data for these fungi so that future monitoring can establish the effects of continued harvesting on mushroom populations and the related host species.
基金sponsored jointly by the National Natural Science Foundation of China(Grant No.30800158)the 11th Five-Year China Key Science&Technology Project on Silviculture for Carbon Sequestration in Subtropics(Grant No:2008BAD95B09)+3 种基金the Ford Foundation(Grant No.10850639)the National Research Council of Thailand(grant NRCT/55201020007)Mae Fah Luang University(grant MFU/54101020048)King Saud University for support.
文摘Climate change affects various facets of life but there is little data on its effects on wild mushroom fruiting.Yunnan Province in China is a rich source of wild mushrooms and has experienced a temperature rise over recent decades.This has resulted in warmer temperatures but the impacts of these changes on mushroom production lack documentation.We collected data on the fruiting of the highly prized matsutake mushroom(Tricholoma matsutake)in West Yunnan,China over an 11 year period from 2000 to 2010.Fruiting phenology and productivity were compared against the driving meteorological variables using Projection to Latent Structure regression.The mushrooms appeared later in the season during the observation period,which is most likely explained by rising temperatures and reduced rain during May and June.High temperature and abundant rain in August resulted in good productivity.The climate response of matsutake production results from a sequence of processes that are possibly linked with regulatory signals and resource availability.To advance the knowledge of this complex system,a holistic research approach integrating biology,ecology,genetics,physiology,and phytochemistry is needed.Our results contribute to a general model of fungal ecology,which can be used to predict the responses of fungi to global climate change.
基金supported by the University of Chinese Academy of Sciences(UCAS)/Kunming Institute of Botany(KIB)the Himalayan Climate Change Adaptation Programme(HICAP) funded by the governments of Norway and Sweden+2 种基金core funds of the International Centre for Integrated MountainDevelopment(ICIMOD)supported the Summer Institute for Disaster and Risk Research implemented by Beijing Normal University (BNU)funded by the State Administration of Foreign Experts Affairs, Ministry of Education, and BNU
文摘Several research efforts have focused primarily on policy implementation and improving innovative actions to address disaster risks. Discussions are ongoing on how to measure the effectiveness of policy implementation at the local level. But there is no definitive theory of effective policy implementation, and very few frameworks have been found acceptable as the basis of an analysis of the effectiveness of policy implementation, especially on droughts. Based on the 2009–2010 extreme drought in Yunnan, China, this article presents a modified framework to assess the effectiveness of policy implementation by defining policy, practice, and performance, as well as a feedback loop by which to share the lessons learned. Water conservancy projects in Luliang County and the agricultural diversity program in Longyang County in Yunnan Province were analyzed from a farmers' perspective. It was found that farmers are highly dependent on government policies and projects, and the effectiveness of policies is measured by short-term, immediate, and tangible benefits rather than long-term adaptation strategies. The results highlight the urgent need to reduce risks by developing better awareness about climate change and drought and its impacts, increased understanding of drought hazards, and implementation of appropriate measures for long-term adaptation.
