The global rise in animal protein consumption has significantly amplified the demand for fodder.A comprehensive understanding of the diversity and characteristics of existing fodder resources is essential for balanced...The global rise in animal protein consumption has significantly amplified the demand for fodder.A comprehensive understanding of the diversity and characteristics of existing fodder resources is essential for balanced nutritional fodder production.This study investigates the diversity and composition of fodder plants and identifies key species for cattle in Zhaotong City,Yunnan,China,while documenting indigenous knowledge on their usage and selection criteria.Ethnobotanical surveys were conducted in 19 villages across seven townships with 140 informants.Data were collected through semi-structured interviews,free listing,and participatory observation,and analyzed using Relative Frequency Citation.A total of 125 taxa(including 106 wild and 19 cultivated)were reported.The most cited family is Poaceae(27 taxa,21.43%),followed by Asteraceae(17 taxa,13.49%),Fabaceae(14 taxa,11.11%),Polygonaceae(9 taxa,7.14%)and Lamiaceae(4 taxa,3.17%).The whole plant(66.04%)and herbaceous plants(84.80%)were the most used parts and life forms.The most cited species were Zea mays,Brassica rapa,Solanum tuberosum,Eragrostis nigra,and Artemisia dubia.Usage of diverse fodder resources reflects local wisdom in managing resource availability and achieving balanced nutrition while coping with environmental and climatic risks.Preferences for certain taxonomic groups are due to their quality as premier fodder resources.To promote integrated crop-livestock farming,we suggest further research into highly preferred fodder species,focusing on nutritional assessment,digestibility,meat quality impacts,and potential as antibiotic alternatives.Establishing germplasm and gene banks for fodder resources is also recommended.展开更多
Climate change and land use change pose a threat to the world’s biodiversity and have significant impacts on the geographic distribution and composition of many bird species,but little is known about how they affect ...Climate change and land use change pose a threat to the world’s biodiversity and have significant impacts on the geographic distribution and composition of many bird species,but little is known about how they affect threatened large-sized waterbird species that rely on agricultural landscapes.To address this gap,we investigated how climate and land use changes influence the distribution and nesting habitats of the globally vulnerable Lesser Adjutant(Leptoptilos javanicus) in Nepal.Between 2012 and 2023,we collected distribution data from 24 districts and nesting site information from 18 districts.In a nation-wide breeding survey conducted in 2020,we documented a total of 581 fledglings from 346 nests in 109 colonies.The ensemble model predicted a current potential distribution of 15%(21,637 km2) and a potential nesting habitat of 13%(19,651 km2) for the species in Nepal.The highest predicted current suitable distribution and nesting habitat was in Madhesh Province,while none was predicted in Karnali Province.The majority of this predicted distributional and nesting habitat falls on agricultural landscapes(>70%).Our model showed a likely range expansion of up to 15%(21,573 km2) for the distribution and up to 12%(17,482 km2) for the nesting habitat under SSP5-8.5 scenarios for the 2070s.The range expansion is expected to occur mainly within the current distribution and breeding range(Tarai and some regions of Siwalk),particularly in Lumbini and Sudurpashchim provinces,and extend to the northern portions(Siwalik and Mid-hill regions) in other provinces.However,the current Protected Areas and Important Bird and Biodiversity Areas are inadequate for providing optimal habitats for the species.Although the model suggests range expansion,the use of such novel habitats is primarily contingent on the availability and protection of large-sized trees(particularly Bombax ceiba,observed in 65% of colonies) in agricultural regions where nesting occurs.Therefore,our research suggests that agricultural landscapes should be prioritized in management plans for the conservation of the Lesser Adjutant in Nepal.展开更多
Understanding the relationship between the supply and demand for ecosystem services(ESs)is critical for ecological management and decision-making.However,it is unknown whether demand and supply for ESs vary in terms o...Understanding the relationship between the supply and demand for ecosystem services(ESs)is critical for ecological management and decision-making.However,it is unknown whether demand and supply for ESs vary in terms of time and space.In this study,the InVEST model was used to spatially quantify the supply and demand for ESs in the Taihu Lake Basin(TLB)between 2010 and 2020.We compared the difference in supply and demand for ESs at four spatial scales.We found that:(1)The high deficit areas are mainly located in densely populated towns in the eastern and central regions,while the high surplus areas are mainly located in forested areas in the southwest.From 2010 to 2020,the surplus area shrank while the deficit area expanded.(2)The comprehensive supply-demand ratio of ESs in the TLB decreased from−0.03 to−0.05,especially the contradiction between carbon sequestration service and heat regulation service.(3)The mismatch between supply and demand on a small scale will have an impact on the overall supply and demand,and expanding the scope can also help to alleviate the contradiction between supply and demand on a small scale.Therefore,we recommend that decision-makers and managers incorporate scale analysis into ecosystem management decisions,realize the balance between supply and demand through reasonable ecological protection and ecological restoration and strengthen the analysis of ecosystem service flows and stakeholders.展开更多
The origin of the biota of Hainan Island,China,remains a fundamental scientific problem.Comparative studies on the biota,geological tectonics,and paleomagnetism proposed that during the Eocene,Hainan Island connected ...The origin of the biota of Hainan Island,China,remains a fundamental scientific problem.Comparative studies on the biota,geological tectonics,and paleomagnetism proposed that during the Eocene,Hainan Island connected Vietnam and Guangxi,and then moved to the southeast to reach its present location.This review mainly discusses its biota origin from molecular phylogeny and palaeobotanical research.The formation and evolution of the biological groups of Hainan Island were identified via research on their genomes,phylogeny,and molecular biogeography.This research showed that the genera and species that appeared and diverged early in their evolution(i.e.,before the Miocene)can be explained by the land connection between Hainan Island,Vietnam,and Guangxi during the Eocene-Oligocene.According to Southeast Asian tectonic theory,in the Middle Miocene(at about 15 million years ago),Hainan Island had moved to its present position.The population and genetic divergence of species with late divergence times(after 15 Ma)can be reasonably explained by the close proximity(or land connection)between Hainan Island and the Leizhou Peninsula,enabling genetic communication between Hainan Island and the Chinese mainland,but have exceptional cases.Conclusions have been obtained through palaeobotanical studies,showing that in the Eocene-Oligocene period,southwest China and Hainan Island had subtropical vegetation and flora.However,the fossil group in southeast China(in Maoming,near present-day Hainan Island)in the Late Eocene indicated a tropical rainforest vegetation and flora.This suggests that in the Paleogene,Hainan Island may have been located near or on the southwest border of Guangxi and northern Vietnam,rather than in its present location.The floristic division of the flora of Hainan Island basically presents a northeast-southwest inclined distribution pattern.This pattern can be explained by the counterclockwise rotation of Hainan Island during its movement to the southeast as proposed by paleomagnetism research.The origin of Hainan Island as proposed by its geological tectonics and comparative research on its biota is further supported by evidence from molecular phylogeny,paleobotanical studies,and the distribution pattern of plant diversity in Hainan.In this paper,the time node(in the Miocene)of the evolution of its biota is also proposed,thereby providing a basis for the in-depth exploration of the origin and evolution of the biota of Hainan Island.展开更多
基金supported by the Strategic Priority Research Program of Chinese Academy of Sciences(Grant No.XDA26050301-02)。
文摘The global rise in animal protein consumption has significantly amplified the demand for fodder.A comprehensive understanding of the diversity and characteristics of existing fodder resources is essential for balanced nutritional fodder production.This study investigates the diversity and composition of fodder plants and identifies key species for cattle in Zhaotong City,Yunnan,China,while documenting indigenous knowledge on their usage and selection criteria.Ethnobotanical surveys were conducted in 19 villages across seven townships with 140 informants.Data were collected through semi-structured interviews,free listing,and participatory observation,and analyzed using Relative Frequency Citation.A total of 125 taxa(including 106 wild and 19 cultivated)were reported.The most cited family is Poaceae(27 taxa,21.43%),followed by Asteraceae(17 taxa,13.49%),Fabaceae(14 taxa,11.11%),Polygonaceae(9 taxa,7.14%)and Lamiaceae(4 taxa,3.17%).The whole plant(66.04%)and herbaceous plants(84.80%)were the most used parts and life forms.The most cited species were Zea mays,Brassica rapa,Solanum tuberosum,Eragrostis nigra,and Artemisia dubia.Usage of diverse fodder resources reflects local wisdom in managing resource availability and achieving balanced nutrition while coping with environmental and climatic risks.Preferences for certain taxonomic groups are due to their quality as premier fodder resources.To promote integrated crop-livestock farming,we suggest further research into highly preferred fodder species,focusing on nutritional assessment,digestibility,meat quality impacts,and potential as antibiotic alternatives.Establishing germplasm and gene banks for fodder resources is also recommended.
基金This work has been supported by CAS-SEABRI(Y4ZK111B01)In-ternational Science,and Technology Commissioner of Yunnan Province(202203AK140027)+2 种基金Yunnan Province Science and Technology Depart-ment(202203AP140007)Rufford Small Grants Foundation(31372-2)Tribhuvan University National Priority Area Research Grant(TU-NPAR-2078/79-ERG-04)。
文摘Climate change and land use change pose a threat to the world’s biodiversity and have significant impacts on the geographic distribution and composition of many bird species,but little is known about how they affect threatened large-sized waterbird species that rely on agricultural landscapes.To address this gap,we investigated how climate and land use changes influence the distribution and nesting habitats of the globally vulnerable Lesser Adjutant(Leptoptilos javanicus) in Nepal.Between 2012 and 2023,we collected distribution data from 24 districts and nesting site information from 18 districts.In a nation-wide breeding survey conducted in 2020,we documented a total of 581 fledglings from 346 nests in 109 colonies.The ensemble model predicted a current potential distribution of 15%(21,637 km2) and a potential nesting habitat of 13%(19,651 km2) for the species in Nepal.The highest predicted current suitable distribution and nesting habitat was in Madhesh Province,while none was predicted in Karnali Province.The majority of this predicted distributional and nesting habitat falls on agricultural landscapes(>70%).Our model showed a likely range expansion of up to 15%(21,573 km2) for the distribution and up to 12%(17,482 km2) for the nesting habitat under SSP5-8.5 scenarios for the 2070s.The range expansion is expected to occur mainly within the current distribution and breeding range(Tarai and some regions of Siwalk),particularly in Lumbini and Sudurpashchim provinces,and extend to the northern portions(Siwalik and Mid-hill regions) in other provinces.However,the current Protected Areas and Important Bird and Biodiversity Areas are inadequate for providing optimal habitats for the species.Although the model suggests range expansion,the use of such novel habitats is primarily contingent on the availability and protection of large-sized trees(particularly Bombax ceiba,observed in 65% of colonies) in agricultural regions where nesting occurs.Therefore,our research suggests that agricultural landscapes should be prioritized in management plans for the conservation of the Lesser Adjutant in Nepal.
基金supported by the Key Research Program of Frontier Sciences of Chinese Academy of Sciences(ZDBS-LY-7011).
文摘Understanding the relationship between the supply and demand for ecosystem services(ESs)is critical for ecological management and decision-making.However,it is unknown whether demand and supply for ESs vary in terms of time and space.In this study,the InVEST model was used to spatially quantify the supply and demand for ESs in the Taihu Lake Basin(TLB)between 2010 and 2020.We compared the difference in supply and demand for ESs at four spatial scales.We found that:(1)The high deficit areas are mainly located in densely populated towns in the eastern and central regions,while the high surplus areas are mainly located in forested areas in the southwest.From 2010 to 2020,the surplus area shrank while the deficit area expanded.(2)The comprehensive supply-demand ratio of ESs in the TLB decreased from−0.03 to−0.05,especially the contradiction between carbon sequestration service and heat regulation service.(3)The mismatch between supply and demand on a small scale will have an impact on the overall supply and demand,and expanding the scope can also help to alleviate the contradiction between supply and demand on a small scale.Therefore,we recommend that decision-makers and managers incorporate scale analysis into ecosystem management decisions,realize the balance between supply and demand through reasonable ecological protection and ecological restoration and strengthen the analysis of ecosystem service flows and stakeholders.
基金supported by the National Natural Science Foundation of China(Grant No.31970223)the Yunnan Province Science and Technology Department(Grant No.202203AP140007)+2 种基金the Yunnan Key Laboratory for the Conservation of Tropical Rainforests and Asian Elephants(Grant No.202305AG070003)the Hainan Institute of National Park(Grant No.KY-24ZK02)the Hainan Province Science and Technology Special Fund(Grant No.ZDYF2023RDYL01)。
文摘The origin of the biota of Hainan Island,China,remains a fundamental scientific problem.Comparative studies on the biota,geological tectonics,and paleomagnetism proposed that during the Eocene,Hainan Island connected Vietnam and Guangxi,and then moved to the southeast to reach its present location.This review mainly discusses its biota origin from molecular phylogeny and palaeobotanical research.The formation and evolution of the biological groups of Hainan Island were identified via research on their genomes,phylogeny,and molecular biogeography.This research showed that the genera and species that appeared and diverged early in their evolution(i.e.,before the Miocene)can be explained by the land connection between Hainan Island,Vietnam,and Guangxi during the Eocene-Oligocene.According to Southeast Asian tectonic theory,in the Middle Miocene(at about 15 million years ago),Hainan Island had moved to its present position.The population and genetic divergence of species with late divergence times(after 15 Ma)can be reasonably explained by the close proximity(or land connection)between Hainan Island and the Leizhou Peninsula,enabling genetic communication between Hainan Island and the Chinese mainland,but have exceptional cases.Conclusions have been obtained through palaeobotanical studies,showing that in the Eocene-Oligocene period,southwest China and Hainan Island had subtropical vegetation and flora.However,the fossil group in southeast China(in Maoming,near present-day Hainan Island)in the Late Eocene indicated a tropical rainforest vegetation and flora.This suggests that in the Paleogene,Hainan Island may have been located near or on the southwest border of Guangxi and northern Vietnam,rather than in its present location.The floristic division of the flora of Hainan Island basically presents a northeast-southwest inclined distribution pattern.This pattern can be explained by the counterclockwise rotation of Hainan Island during its movement to the southeast as proposed by paleomagnetism research.The origin of Hainan Island as proposed by its geological tectonics and comparative research on its biota is further supported by evidence from molecular phylogeny,paleobotanical studies,and the distribution pattern of plant diversity in Hainan.In this paper,the time node(in the Miocene)of the evolution of its biota is also proposed,thereby providing a basis for the in-depth exploration of the origin and evolution of the biota of Hainan Island.
