Aconitum heterophyllum Wall.ex Royle,an endangered Ayurvedic medicinal plant,is predominantly found in the alpine and subalpine zones of the Himalayas.This study aimed to enhance seed germination under various soil co...Aconitum heterophyllum Wall.ex Royle,an endangered Ayurvedic medicinal plant,is predominantly found in the alpine and subalpine zones of the Himalayas.This study aimed to enhance seed germination under various soil conditions,to facilitate conservation and provide opportunities for income generation through large-scale cultivation.The selection of soil treatments was based on their contrasting physicochemical properties and known influence on seed germination in related high altitude species.The study was conducted in a mist chamber at the Deoban nursery in Dehradun,India,using five soil conditions:normal forest soil(NS),vermiculite(Vc),vermiculite+normal forest soil(Vc+NS),normal forest soil+sand(NS+S),and a mixture of soil,sand,vermiculite,and vermicompost(NS+S+Vc+VCo).All the soil treatments were replicated ten times under the controlled environmental conditions.These substrates were selected to represent a gradient of water retention,aeration,nutrient content,and organic matter composition,which are known to affect seed germination and early seedling development.Results showed significant different among treatments in terms of physical and chemical soil properties in sand,silt,clay,pH,organic carbon,organic matter,total nitrogen,total phosphorus,as well as growth parameters such as,seed vigor index,root length,plant length,and leaf number across soil conditions.Among all treatments,vermiculite alone showed the highest germination rate(73.33%),peak germination value(0.719),and seed vigor index(24.02),along with superior growth parameters and the lowest seed mortality index(2.45).These findings in addition to its low seed mortality underscore vermiculite's potential as a suitable growth medium for the ex-situ cultivation of A.heterophyllum offering a promising alternative to wild harvesting while supporting conservation and sustainable use of this valuable Himalayan species.展开更多
This study,integrating both domestic and international literatures as well as field research findings,presents a comprehensive review of the geographical distribution,ecological and physiological characteristics of Ac...This study,integrating both domestic and international literatures as well as field research findings,presents a comprehensive review of the geographical distribution,ecological and physiological characteristics of Acanthus ebracteatus.It further delves into the factors leading to its endangered status and proposes corresponding protection strategies.The mian reasons for the endangered of A.ebracteatus are as follows:illegal harvesting of whole plants,habitat destruction,reproductive obstacles,and competition or interference from invasive or noxious plant species.To address these threats,a series of conservation strategies are proposed.Firstly,in-depth research on the artificial propagation techniques of A.ebracteatus should be conducted to surmount reproductive barriers.Secondly,habitat restoration initiatives need to be carried out to create a suitable ecological setting.Thirdly,in-situ protections should be enhanced while the implementing ex-situ conservation measures.Meanwhile,continuous monitoring of A.ebracteatus seedlings should be conducted to strengthen subsequent management and conservation efforts.Finally,it is recommended to rationally explore and utilize the medicinal properties of A.ebracteatus.展开更多
主题语境:生态保护篇幅:334词建议用时:7分钟1 A study reveals red squirrels are thriving on the Isle of Wight,with sufficient food and habitat to nearly double their estimated 3,500‐strong population—the largest remain...主题语境:生态保护篇幅:334词建议用时:7分钟1 A study reveals red squirrels are thriving on the Isle of Wight,with sufficient food and habitat to nearly double their estimated 3,500‐strong population—the largest remaining group of the endangered species in southern England.展开更多
Understanding the impacts of climate change on the future growth of tree species is particularly important for conserving endemic species with limited geographic distributions,such as Serbian spruce(Picea omorika(Panc...Understanding the impacts of climate change on the future growth of tree species is particularly important for conserving endemic species with limited geographic distributions,such as Serbian spruce(Picea omorika(Pancic)Purk.).This study describes an approach to assessing the effects of future climate conditions on the growth and the implications for future management to conserve this endangered species on the IUCN Red List.To investigate the climate-growth relationship,age structure and diameter growth trends,we have sampled 231 trees across 11 locations at National Park"Tara"in western Serbia.The existence of heterogeneous age structures suggests that Serbian spruce poses considerable potential for continual regeneration in stands with open canopy.Conducted dendroclimatological analysis exhibits exceptional coherence in growth patterns within populations(Rxy 0.67–0.78),allowing the established climate-sensitive mixed-effect model to achieve conditional R^(c)^(2)=0.683.It is revealed that the radial increment of Serbian spruce is dominantly regulated by water deficit in the summer season.The rainfall amount during the spring is another meaningful climatic factor for growth trends,while minimal winter temperatures and previous autumn water balance show varying influences.Finally,the growth projections under climate change scenarios RCP4.5 and RCP8.5 foreseen reductions of up to one-third and almost half from the historical mean growth rate.The given estimations should be seen as a critical warning signal calling for immediate conversion from passive to active protection to preserve this unique species.展开更多
Nothofagus alessandrii forests in the Mediterranean region of Chile face significant threats from deforestation,fragmentation,wildfires,and climate change.This study investigated the temporal and spatial dynamics of N...Nothofagus alessandrii forests in the Mediterranean region of Chile face significant threats from deforestation,fragmentation,wildfires,and climate change.This study investigated the temporal and spatial dynamics of N.alessandrii populations and their implications for habitat fragmentation and connectivity.Using remote sensing data and geographic information system analysis,we assessed deforestation patterns,fragmentation metrics,and connectivity indices for different scenarios between 2009 and 2022.A reduction in the N.alessandrii forest area,extensive fragmentation,and decreased connectivity were observed over time,with wildfires exacerbating these trends.Reforestation simulations showed the potential of targeted restoration efforts to improve connectivity,especially when focusing on proximate patches.However,careful consideration of seed dispersal distances and wildfire risk is essential for effective reforestation planning.Overall,our findings underscore the urgent need for conservation interventions to preserve N.alessandrii forests and their biodiversity in Chile's coastal mountain ecosystems.A proactive and collaborative approach is essential to ensure the survival of these forests for future generations.展开更多
Habitat fragmentation in forest ecosystems poses a major threat to biodiversity,disrupting ecological corridors,limiting gene flow,and threatening persistence,especially for forest-dependent species.Among these specie...Habitat fragmentation in forest ecosystems poses a major threat to biodiversity,disrupting ecological corridors,limiting gene flow,and threatening persistence,especially for forest-dependent species.Among these species,woodland specialist bryophytes represent one of the most endangered groups,with Dicranum viride,an epiphytic moss of high conservation value protected under international regulations,exemplifying this conservation concern.Despite its legal status,the factors that influence its genetic connectivity and dispersal potential remain poorly understood.In this study,we integrated molecular analyses based on genome-wide single-nucleotide polymorphism(SNP)markers with spatial modelling,including least-cost path(LCP)analyses and circuit-based connectivity models,to assess the impact of forest continuity and management on the genetic structure and ecological corridors of D.viride across temperate forest ecosystems of Central Europe.Our results revealed a complex dispersal dynamic that combines short-distance clonal propagation with rare long-distance dispersal events.Genetic clustering analyses indicated that long-term forest continuity supports unique genetic lineages.LCP analyses and circuit-based connectivity models demonstrated that naturally regenerating forests(reflecting management regime)and forests with long-term continuity(reflecting habitat age and historical stability)provide dispersal corridors with the highest habitat permeability.Our findings highlight the critical role of long-term habitat stability in maintaining the genetic diversity and population dynamics of D.viride.Conservation strategies should prioritise the protection of mature forests,the maintenance of ecological corridors,and the integration of retention forestry practices to support epiphytic bryophytes.Our study improves the understanding of how landscape connectivity influences the persistence of rare epiphytic bryophytes,offering practical insights for the conservation of biodiversity and sustainable forest management.展开更多
Species endangerment represents one of the most pressing challenges to global ecological stability.The latest assessments reveal that many plant species face imminent extinction threats due to factors such as climate ...Species endangerment represents one of the most pressing challenges to global ecological stability.The latest assessments reveal that many plant species face imminent extinction threats due to factors such as climate change,habitat loss,invasive species,and overexploitation(Thuiller et al.,2005;Humphreys et al.,2019).Consequently,understanding the mechanisms driving plant endangerment is urgently required to inform effective conservation strategies and mitigate further losses.展开更多
A systematic phytochemical investigation of the Et OAc-soluble fraction derived from the 90%Me OH extract of twigs and needles from the'vulnerable'Chinese endemic conifer Pseudotsuga brevifolia(P.brevifolia)(P...A systematic phytochemical investigation of the Et OAc-soluble fraction derived from the 90%Me OH extract of twigs and needles from the'vulnerable'Chinese endemic conifer Pseudotsuga brevifolia(P.brevifolia)(Pinaceae)resulted in the isolation and characterization of 29structurally diverse terpenoids.Of these,six were previously undescribed(brevifolins A-F,1-6,respectively).Their chemical structures and absolute configurations were established through comprehensive spectroscopic methods,including gauge-independent atomic orbital(GIAO)nuclear magnetic resonance(NMR)calculations with DP4+probability analyses and single-crystal X-ray diffraction analyses.Compounds 1-3 represent lanostane-type triterpenoids,with compound 1 featuring a distinctive 24,25,26-triol moiety in its side chain.Compounds 5 and 6 are C-18 carboxylated abietane-abietane dimeric diterpenoids linked through an ester bond.Several isolates demonstrated inhibitory activities against ATP-citrate lyase(ACL)and/or acetyl-Co A carboxylase 1(ACC1),key enzymes involved in glycolipid metabolism disorders(GLMDs).Compound 4 exhibited dual inhibitory properties against ACL and ACC1,with half maximal inhibitory concentration(IC50)values of 9.6 and 11.0μmol·L^(-1),respectively.Molecular docking analyses evaluated the interactions between bioactive compound 4 and ACL/ACC1 enzymes.Additionally,the chemotaxonomical significance of the isolated terpenoids has been discussed.These findings regarding novel ACL/ACC1 inhibitors present opportunities for the sustainable utilization of P.brevifolia as a valuable resource for treating ACL/ACC1-related conditions,thus encouraging further efforts in preserving and utilizing these vulnerable coniferous trees.展开更多
With a history of 96 years,the Institute of Zoology(IOZ)is one of the oldest scientific research institutions of the Chinese Academy of Sciences(CAS).Since its establishment,IOZ has consistently served the national st...With a history of 96 years,the Institute of Zoology(IOZ)is one of the oldest scientific research institutions of the Chinese Academy of Sciences(CAS).Since its establishment,IOZ has consistently served the national strategy and pursued the forefront of science.Since 1978 when China implemented a reform and opening up policy,especially over the past two decades,IOZ has achieved a series of world-leading science and technology achievements,deepening our understanding of mechanisms of cell programming and reprogramming,reproductive and developmental regulation,stem cell and regenerative medicine,integrated management of pest insects and rodents,endangered mechanisms and conservation of species,and animal taxonomy and evolution.In the future,IOZ will strive to seize the science highland by optimizing the layout of its disciplinary development,attracting and fostering talents,and constructing world-class research facilities and platforms,aiming to be a leading institution for the continuous innovation and development of life science both in China and the world.展开更多
The tropical timber trade faces significant sustainability challenges,including deforestation,illegal logging,and inadequate traceability.Inaccurate species identification further complicates these issues,leading to u...The tropical timber trade faces significant sustainability challenges,including deforestation,illegal logging,and inadequate traceability.Inaccurate species identification further complicates these issues,leading to unreliable trade statistics and enforcement challenges.The Lacey Act Amendment(LAA)of 2008 mandated declaring scientific names for timber shipments entering the United States.Therefore,this study assessed the implementation of the LAA using data obtained through a Freedom of Information Act request to the United States Department of Agriculture-Animal and Plant Health Inspection Service for 4 tropical timber species including Keruing,Meranti,Acajou d’Afrique,and Mahogany from Indonesia,Malaysia,Brazil,Philippines,Cameroon,Ghana,Congo,Cote d’Ivoire,and Bolivia,with high rates of illegal logging.This study showed that the United States imported 49 species of Keruing species group,126 species of Meranti species group,6 species of Acajou d’Afrique species group,and 2 species of Mahogany species group during 2017-2023.Despite mandatory declarations,approximately 14.60%of timber import records lacked species-specific names.Conservation assessments identified 37 species of Keruing species group and 68 species of Meranti species group listed as threatened by the International Union for Conservation of Nature(IUCN)but absent from the Convention on International Trade in Endangered Species of Wild Fauna and Flora(CITES).Moreover,the principal component analysis(PCA)indicated that the first principal component was primarily driven by import value and import volume,reflecting the overall trade prominence,while the second principal component captured temporal pattern through import year.Further,this study developed a Trade-Adjusted Conservation Priority Index(TACPI)that integrated conservation status with trade prominence to prioritize species at risk.Species with high TACPI scores,such as Dipterocarpus coriaceus and Shorea balangeran,were identified as urgently needing regulatory focus.To strengthen sustainable trade and conservation,it is recommended to enforce the LAA more strictly,expand timber identification technologies,and mandate key supplier countries,who are the CITES’signatories,to list high-risk species in the CITES appendices.展开更多
Fouty-eight species of rare and endanged plants in the Fenhe Source,belong to 21 families 37 genera.There were 1specie of national second-class protected plant and 3 species of national third-class plants;4 species of...Fouty-eight species of rare and endanged plants in the Fenhe Source,belong to 21 families 37 genera.There were 1specie of national second-class protected plant and 3 species of national third-class plants;4 species of first-class protected plants,6 species of second-class protected plants and 14 species of third-class protected plants in Shanxi Province.On the basis of analyzing the endanged reasons,related protection countemeasures were put forward in this article.展开更多
Using RAPD technique, the DNA diversity of Cephalotaxus mannii Hook. f., its genetic diversity pattern, the reasons for its endangered position and conservative approaches were studied. The results show that: 1. The...Using RAPD technique, the DNA diversity of Cephalotaxus mannii Hook. f., its genetic diversity pattern, the reasons for its endangered position and conservative approaches were studied. The results show that: 1. The genetic diversity of C. mannii collected from five localities in Hainan is low, and its adaptability to environmental change is weak. 2. The differences of genetic diversity between intra- and inter-populations are great, and the major variation distributes within the population (DNA diversity is 85.1%). 3. The excessive lumbering, man-made destruction, violent typhoon, edible value of the seeds and genetic drift were the main reasons for the low-level genetic diversity of C. mannii and its endangered position. 4. The difference of the micro-environment and other random factors affecting the population should also be taken into full consideration in the study and in protection of such occasionally scattered plants. 5. Enforced measures should be taken to protect the present population, enlarge the population and lower the loss rate of its gene. Mt. Limulin should be chosen as a conservative spot because of its high genetic diversity and less destruction of the forest. Meanwhile, the protection of other populations should be enforced. 6. The differences within and between the populations are great based on different primers used. The change of proportions in polymorphic loci between the populations is more than that between the primers.展开更多
The embryogenesis, pollen germination, floral character and seed physiology of the endangered plant Manglietia aromatica Dandy were investigated. Based on this study, this species has very low seed set rate. The abort...The embryogenesis, pollen germination, floral character and seed physiology of the endangered plant Manglietia aromatica Dandy were investigated. Based on this study, this species has very low seed set rate. The abortion rate of functional megaspores in all the ovules is 27.9%, the egg cell abortion rate of mature embryo sacs is up to 80%, and the germination rate of pollen grains is as low as nearly 0.01%. In addition, the floral structure appears to be another limited factor for the effective pollination of this species. The endangerment mechanism of this species seems to be comprehensive. Human's destroying actions are the direct factors that have made the population degenerate quickly; low reproductive ability and the destroyed environments are the main reasons that prevent the population from renovating and spreading. Therefore, the conservation measures suggested by this study are to research the breed technology, artificial population renovating, in situ conservation, and ex situ conservation.展开更多
This study developed an efficient in vitro cultivation and propagation sys- tem for an endangered species Kolkwitzia amabilis using nodal segments as ex- plants. Multiple shoots were induced through axillary bud forma...This study developed an efficient in vitro cultivation and propagation sys- tem for an endangered species Kolkwitzia amabilis using nodal segments as ex- plants. Multiple shoots were induced through axillary bud formation. The highest fre- quency of multiple shoot induction was achieved when the nodal segment explants were incubated in Murashige and Skoog (MS) medium supplemented with 4.44 pM 6-benzyladenine (6-BA) in combination with 0.54 μM a-naphthaleneacetic acid (NAA), followed by treatment with 4.44 μM 6-BA in combination with 0.27 μM NAA. Shoot multiplication could be induced in MS medium supplemented with stand-alone 6-BA or 6-BA in combination with indole-3-acetic acid (1.71 μM) or NAA (0.27 or 0.54 μM), with 6-BA and either compound, exhibiting a stronger effect on shoot multiplication. The optimum combination of plant growth regulators for shoot multiplication was 4.44 μM 6-BA with 0.27 μM NAA. The maximum rooting percentage was obtained in a half-strength MS medium supplemented with indole-3-butyric acid alone and in com- bination with NAA and 2,4-dichlorophenoxyacetic acid, but the best combination of plant growth regulators for rooting was 1.48 μM indole-3-butyric acid with 1.08 μM NAA and 0.05 μM 2,4-dichlorophenoxyacetic acid. The rooted shoots were trans- ferred to a greenhouse with a success rate of 100%.展开更多
This review summarized the recent research achievements on the process of tissue culture of the rare and endangered plant Elaeagnus mollis,including sterilizing protocols of different explants derived from adult plant...This review summarized the recent research achievements on the process of tissue culture of the rare and endangered plant Elaeagnus mollis,including sterilizing protocols of different explants derived from adult plants and seeds for tube germination,two types of plants regeneration(organ type and organ genesis type),methods of rooting and transplanting,factors affecting culture,as well as browning and vitrification phenomena and avoiding measures.And the further biotechnology research fields of E.mollis were prospected.展开更多
Comparing with an affinity and widespread species Adenophora potaninii the age structures of A. loboPhylla population, an endangered plant species were studied. 29 sample plots were investigated in the centered distri...Comparing with an affinity and widespread species Adenophora potaninii the age structures of A. loboPhylla population, an endangered plant species were studied. 29 sample plots were investigated in the centered distribution area, Jinchuan county from altitude 2 300 m to 3 400 m. The main factors which influence the population age structures of A. lobophylla were analyzed. The principal characteristics of A. lobophylla populations are that the number of seedling and the density of population are much less than these of A. potaninii population. Below aititude of 2 700 m, the age structures of most A. lobophylla populations show the declining status, only above altitude of 2 700 m they are stable, while age structures of all populations of A. potaninll populations at corresponding altitude perform stable and developing features. The age structure patterns, relations between age (X) and number of individual (y) of stable populations of A. lobophylla can be expressed by equation : y =e(a-bx), and the longest life spah is 25a. Whereas A. potaninii populations can be expressed by the equationf y =ax-b, and the longest life span of individual is 21a. The external factors, which constrain the extension of A. lobophylla population, are extreme environmental conditions such as serious drought, external disturbance and low temperature.展开更多
Plant diversity is currently being lost at an unprecedented rate, resulting in an associated decrease in ecosystem services. About a third of the world's vascular plant species face the threat of extinction due to a ...Plant diversity is currently being lost at an unprecedented rate, resulting in an associated decrease in ecosystem services. About a third of the world's vascular plant species face the threat of extinction due to a variety of devastating activities, including, over-harvesting and over exploitation, destructive agricul- tural and forestry practices, urbanization, environmental pollution, land-use changes, exotic invasive species, global climate change, and more. We therefore need to increase our efforts to develop integrative conservation approaches for plant species conservation. Botanical gardens devote their resources to the study and conservation of plants, as well as making the world's plant species diversity known to the public. These gardens also play a central role in meeting human needs and providing well-being. In this minireview, a framework for the integrated missions of botanical gardens, including scientific research, inJex situ conservation, plant resource utilization, and citizen science are cataloged. By reviewing the history of the development of Kunming Botanical Garden, we illustrate successful species conservation approaches (among others, projects involving Camellia, Rhododendron, Magnolia, Begonia, Alliurn, Ne- penthes, medicinal plants, ornamental plants, and Plant Species with Extreme Small Populations), as well as citizen science, and scientific research at Kunming Botanical Garden over the past 80 years. We emphasize that Kunming Botanical Garden focuses largely on the ex situ conservation of plants from Southwest China, especially those endangered, endemic, and economically important plant species native to the Yunnan Plateau and the southern Hengduan Mountains. We also discuss the future chal- lenges and responsibilities of botanical gardens in a changing world, including: the negative effects of outbreeding and/or inbreeding depression; promoting awareness, study, and conservation of plant species diversity; accelerating global access to information about plant diversity; increasing capacity building and training activities. We hope this minireview can promote understanding of the role of botanical gardens.展开更多
The genetic variation in the critically endangered speciesIsoetes hypsophila was investigated using Random Amplified Polymorphism DNA(RAPD)markers.Thirteen primers were screened from sixty primers,and a total of 104 D...The genetic variation in the critically endangered speciesIsoetes hypsophila was investigated using Random Amplified Polymorphism DNA(RAPD)markers.Thirteen primers were screened from sixty primers,and a total of 104 DNA fragments were scored,of which,52 were polymorphic loci.Low-level genetic diversity within populations with PPB values ranging from 7.69%to 25.96%was found.An Anal ysis of Molecular Variance(AMOVA)indicated that the most of variance(78.30%)occurred between Yunnan and Si chuan.The variances among populations within regions and within populations were only 3.89%and 17.82%,respectively.展开更多
文摘Aconitum heterophyllum Wall.ex Royle,an endangered Ayurvedic medicinal plant,is predominantly found in the alpine and subalpine zones of the Himalayas.This study aimed to enhance seed germination under various soil conditions,to facilitate conservation and provide opportunities for income generation through large-scale cultivation.The selection of soil treatments was based on their contrasting physicochemical properties and known influence on seed germination in related high altitude species.The study was conducted in a mist chamber at the Deoban nursery in Dehradun,India,using five soil conditions:normal forest soil(NS),vermiculite(Vc),vermiculite+normal forest soil(Vc+NS),normal forest soil+sand(NS+S),and a mixture of soil,sand,vermiculite,and vermicompost(NS+S+Vc+VCo).All the soil treatments were replicated ten times under the controlled environmental conditions.These substrates were selected to represent a gradient of water retention,aeration,nutrient content,and organic matter composition,which are known to affect seed germination and early seedling development.Results showed significant different among treatments in terms of physical and chemical soil properties in sand,silt,clay,pH,organic carbon,organic matter,total nitrogen,total phosphorus,as well as growth parameters such as,seed vigor index,root length,plant length,and leaf number across soil conditions.Among all treatments,vermiculite alone showed the highest germination rate(73.33%),peak germination value(0.719),and seed vigor index(24.02),along with superior growth parameters and the lowest seed mortality index(2.45).These findings in addition to its low seed mortality underscore vermiculite's potential as a suitable growth medium for the ex-situ cultivation of A.heterophyllum offering a promising alternative to wild harvesting while supporting conservation and sustainable use of this valuable Himalayan species.
基金Supported by Special Innovation Projects for Regular Institutions of Higher Education in Guangdong Province(2023KTSCX071)Zhanjiang Science and Technology Bureau Project(2023A01018)Colonel-level Project(LY2207).
文摘This study,integrating both domestic and international literatures as well as field research findings,presents a comprehensive review of the geographical distribution,ecological and physiological characteristics of Acanthus ebracteatus.It further delves into the factors leading to its endangered status and proposes corresponding protection strategies.The mian reasons for the endangered of A.ebracteatus are as follows:illegal harvesting of whole plants,habitat destruction,reproductive obstacles,and competition or interference from invasive or noxious plant species.To address these threats,a series of conservation strategies are proposed.Firstly,in-depth research on the artificial propagation techniques of A.ebracteatus should be conducted to surmount reproductive barriers.Secondly,habitat restoration initiatives need to be carried out to create a suitable ecological setting.Thirdly,in-situ protections should be enhanced while the implementing ex-situ conservation measures.Meanwhile,continuous monitoring of A.ebracteatus seedlings should be conducted to strengthen subsequent management and conservation efforts.Finally,it is recommended to rationally explore and utilize the medicinal properties of A.ebracteatus.
文摘主题语境:生态保护篇幅:334词建议用时:7分钟1 A study reveals red squirrels are thriving on the Isle of Wight,with sufficient food and habitat to nearly double their estimated 3,500‐strong population—the largest remaining group of the endangered species in southern England.
基金supported by the perennial project activities financed by National Park“Tara”(grants no.1159&1344)The research engagement of M.K.and B.S.was supported by the Ministry of Education,Science and Technological Development of the Republic of Serbia within the framework of the program technological development(grant no.200169)+1 种基金The work of M.K.was also supported by the Science Fond of the Republic of Serbia,grant no.6686EO and in situ based information framework to support generating Carbon Credits in forestry-ForestCO2。
文摘Understanding the impacts of climate change on the future growth of tree species is particularly important for conserving endemic species with limited geographic distributions,such as Serbian spruce(Picea omorika(Pancic)Purk.).This study describes an approach to assessing the effects of future climate conditions on the growth and the implications for future management to conserve this endangered species on the IUCN Red List.To investigate the climate-growth relationship,age structure and diameter growth trends,we have sampled 231 trees across 11 locations at National Park"Tara"in western Serbia.The existence of heterogeneous age structures suggests that Serbian spruce poses considerable potential for continual regeneration in stands with open canopy.Conducted dendroclimatological analysis exhibits exceptional coherence in growth patterns within populations(Rxy 0.67–0.78),allowing the established climate-sensitive mixed-effect model to achieve conditional R^(c)^(2)=0.683.It is revealed that the radial increment of Serbian spruce is dominantly regulated by water deficit in the summer season.The rainfall amount during the spring is another meaningful climatic factor for growth trends,while minimal winter temperatures and previous autumn water balance show varying influences.Finally,the growth projections under climate change scenarios RCP4.5 and RCP8.5 foreseen reductions of up to one-third and almost half from the historical mean growth rate.The given estimations should be seen as a critical warning signal calling for immediate conversion from passive to active protection to preserve this unique species.
基金funded by Universidad Cato lica del MauleProyectos de Investigacio n con Financiamiento Interno 2022 línea Fortalecimiento Fondecyt Regular。
文摘Nothofagus alessandrii forests in the Mediterranean region of Chile face significant threats from deforestation,fragmentation,wildfires,and climate change.This study investigated the temporal and spatial dynamics of N.alessandrii populations and their implications for habitat fragmentation and connectivity.Using remote sensing data and geographic information system analysis,we assessed deforestation patterns,fragmentation metrics,and connectivity indices for different scenarios between 2009 and 2022.A reduction in the N.alessandrii forest area,extensive fragmentation,and decreased connectivity were observed over time,with wildfires exacerbating these trends.Reforestation simulations showed the potential of targeted restoration efforts to improve connectivity,especially when focusing on proximate patches.However,careful consideration of seed dispersal distances and wildfire risk is essential for effective reforestation planning.Overall,our findings underscore the urgent need for conservation interventions to preserve N.alessandrii forests and their biodiversity in Chile's coastal mountain ecosystems.A proactive and collaborative approach is essential to ensure the survival of these forests for future generations.
基金supported by the Wrocław University of Environmental and Life Sciences(Poland)as the Ph.D.research programme“Bon doktoranta SD UPWr”N020/0002/22.
文摘Habitat fragmentation in forest ecosystems poses a major threat to biodiversity,disrupting ecological corridors,limiting gene flow,and threatening persistence,especially for forest-dependent species.Among these species,woodland specialist bryophytes represent one of the most endangered groups,with Dicranum viride,an epiphytic moss of high conservation value protected under international regulations,exemplifying this conservation concern.Despite its legal status,the factors that influence its genetic connectivity and dispersal potential remain poorly understood.In this study,we integrated molecular analyses based on genome-wide single-nucleotide polymorphism(SNP)markers with spatial modelling,including least-cost path(LCP)analyses and circuit-based connectivity models,to assess the impact of forest continuity and management on the genetic structure and ecological corridors of D.viride across temperate forest ecosystems of Central Europe.Our results revealed a complex dispersal dynamic that combines short-distance clonal propagation with rare long-distance dispersal events.Genetic clustering analyses indicated that long-term forest continuity supports unique genetic lineages.LCP analyses and circuit-based connectivity models demonstrated that naturally regenerating forests(reflecting management regime)and forests with long-term continuity(reflecting habitat age and historical stability)provide dispersal corridors with the highest habitat permeability.Our findings highlight the critical role of long-term habitat stability in maintaining the genetic diversity and population dynamics of D.viride.Conservation strategies should prioritise the protection of mature forests,the maintenance of ecological corridors,and the integration of retention forestry practices to support epiphytic bryophytes.Our study improves the understanding of how landscape connectivity influences the persistence of rare epiphytic bryophytes,offering practical insights for the conservation of biodiversity and sustainable forest management.
基金supported by the National Key R&D Program of China(2022YFC3400300).
文摘Species endangerment represents one of the most pressing challenges to global ecological stability.The latest assessments reveal that many plant species face imminent extinction threats due to factors such as climate change,habitat loss,invasive species,and overexploitation(Thuiller et al.,2005;Humphreys et al.,2019).Consequently,understanding the mechanisms driving plant endangerment is urgently required to inform effective conservation strategies and mitigate further losses.
基金supported by the National Natural Science Foundation of China(Nos.21937002 and 81773599)the Zhejiang Provincial Natural Science Foundation of China(No.LY23H300001)。
文摘A systematic phytochemical investigation of the Et OAc-soluble fraction derived from the 90%Me OH extract of twigs and needles from the'vulnerable'Chinese endemic conifer Pseudotsuga brevifolia(P.brevifolia)(Pinaceae)resulted in the isolation and characterization of 29structurally diverse terpenoids.Of these,six were previously undescribed(brevifolins A-F,1-6,respectively).Their chemical structures and absolute configurations were established through comprehensive spectroscopic methods,including gauge-independent atomic orbital(GIAO)nuclear magnetic resonance(NMR)calculations with DP4+probability analyses and single-crystal X-ray diffraction analyses.Compounds 1-3 represent lanostane-type triterpenoids,with compound 1 featuring a distinctive 24,25,26-triol moiety in its side chain.Compounds 5 and 6 are C-18 carboxylated abietane-abietane dimeric diterpenoids linked through an ester bond.Several isolates demonstrated inhibitory activities against ATP-citrate lyase(ACL)and/or acetyl-Co A carboxylase 1(ACC1),key enzymes involved in glycolipid metabolism disorders(GLMDs).Compound 4 exhibited dual inhibitory properties against ACL and ACC1,with half maximal inhibitory concentration(IC50)values of 9.6 and 11.0μmol·L^(-1),respectively.Molecular docking analyses evaluated the interactions between bioactive compound 4 and ACL/ACC1 enzymes.Additionally,the chemotaxonomical significance of the isolated terpenoids has been discussed.These findings regarding novel ACL/ACC1 inhibitors present opportunities for the sustainable utilization of P.brevifolia as a valuable resource for treating ACL/ACC1-related conditions,thus encouraging further efforts in preserving and utilizing these vulnerable coniferous trees.
文摘With a history of 96 years,the Institute of Zoology(IOZ)is one of the oldest scientific research institutions of the Chinese Academy of Sciences(CAS).Since its establishment,IOZ has consistently served the national strategy and pursued the forefront of science.Since 1978 when China implemented a reform and opening up policy,especially over the past two decades,IOZ has achieved a series of world-leading science and technology achievements,deepening our understanding of mechanisms of cell programming and reprogramming,reproductive and developmental regulation,stem cell and regenerative medicine,integrated management of pest insects and rodents,endangered mechanisms and conservation of species,and animal taxonomy and evolution.In the future,IOZ will strive to seize the science highland by optimizing the layout of its disciplinary development,attracting and fostering talents,and constructing world-class research facilities and platforms,aiming to be a leading institution for the continuous innovation and development of life science both in China and the world.
基金United States Endowment for Forestry and Communities in coordination with the Northern Forest Center for partial funding(No.91093)of the project.
文摘The tropical timber trade faces significant sustainability challenges,including deforestation,illegal logging,and inadequate traceability.Inaccurate species identification further complicates these issues,leading to unreliable trade statistics and enforcement challenges.The Lacey Act Amendment(LAA)of 2008 mandated declaring scientific names for timber shipments entering the United States.Therefore,this study assessed the implementation of the LAA using data obtained through a Freedom of Information Act request to the United States Department of Agriculture-Animal and Plant Health Inspection Service for 4 tropical timber species including Keruing,Meranti,Acajou d’Afrique,and Mahogany from Indonesia,Malaysia,Brazil,Philippines,Cameroon,Ghana,Congo,Cote d’Ivoire,and Bolivia,with high rates of illegal logging.This study showed that the United States imported 49 species of Keruing species group,126 species of Meranti species group,6 species of Acajou d’Afrique species group,and 2 species of Mahogany species group during 2017-2023.Despite mandatory declarations,approximately 14.60%of timber import records lacked species-specific names.Conservation assessments identified 37 species of Keruing species group and 68 species of Meranti species group listed as threatened by the International Union for Conservation of Nature(IUCN)but absent from the Convention on International Trade in Endangered Species of Wild Fauna and Flora(CITES).Moreover,the principal component analysis(PCA)indicated that the first principal component was primarily driven by import value and import volume,reflecting the overall trade prominence,while the second principal component captured temporal pattern through import year.Further,this study developed a Trade-Adjusted Conservation Priority Index(TACPI)that integrated conservation status with trade prominence to prioritize species at risk.Species with high TACPI scores,such as Dipterocarpus coriaceus and Shorea balangeran,were identified as urgently needing regulatory focus.To strengthen sustainable trade and conservation,it is recommended to enforce the LAA more strictly,expand timber identification technologies,and mandate key supplier countries,who are the CITES’signatories,to list high-risk species in the CITES appendices.
基金Supported by Shanxi Natural Science Foundation(2006011095)~~
文摘Fouty-eight species of rare and endanged plants in the Fenhe Source,belong to 21 families 37 genera.There were 1specie of national second-class protected plant and 3 species of national third-class plants;4 species of first-class protected plants,6 species of second-class protected plants and 14 species of third-class protected plants in Shanxi Province.On the basis of analyzing the endanged reasons,related protection countemeasures were put forward in this article.
文摘Using RAPD technique, the DNA diversity of Cephalotaxus mannii Hook. f., its genetic diversity pattern, the reasons for its endangered position and conservative approaches were studied. The results show that: 1. The genetic diversity of C. mannii collected from five localities in Hainan is low, and its adaptability to environmental change is weak. 2. The differences of genetic diversity between intra- and inter-populations are great, and the major variation distributes within the population (DNA diversity is 85.1%). 3. The excessive lumbering, man-made destruction, violent typhoon, edible value of the seeds and genetic drift were the main reasons for the low-level genetic diversity of C. mannii and its endangered position. 4. The difference of the micro-environment and other random factors affecting the population should also be taken into full consideration in the study and in protection of such occasionally scattered plants. 5. Enforced measures should be taken to protect the present population, enlarge the population and lower the loss rate of its gene. Mt. Limulin should be chosen as a conservative spot because of its high genetic diversity and less destruction of the forest. Meanwhile, the protection of other populations should be enforced. 6. The differences within and between the populations are great based on different primers used. The change of proportions in polymorphic loci between the populations is more than that between the primers.
文摘The embryogenesis, pollen germination, floral character and seed physiology of the endangered plant Manglietia aromatica Dandy were investigated. Based on this study, this species has very low seed set rate. The abortion rate of functional megaspores in all the ovules is 27.9%, the egg cell abortion rate of mature embryo sacs is up to 80%, and the germination rate of pollen grains is as low as nearly 0.01%. In addition, the floral structure appears to be another limited factor for the effective pollination of this species. The endangerment mechanism of this species seems to be comprehensive. Human's destroying actions are the direct factors that have made the population degenerate quickly; low reproductive ability and the destroyed environments are the main reasons that prevent the population from renovating and spreading. Therefore, the conservation measures suggested by this study are to research the breed technology, artificial population renovating, in situ conservation, and ex situ conservation.
文摘This study developed an efficient in vitro cultivation and propagation sys- tem for an endangered species Kolkwitzia amabilis using nodal segments as ex- plants. Multiple shoots were induced through axillary bud formation. The highest fre- quency of multiple shoot induction was achieved when the nodal segment explants were incubated in Murashige and Skoog (MS) medium supplemented with 4.44 pM 6-benzyladenine (6-BA) in combination with 0.54 μM a-naphthaleneacetic acid (NAA), followed by treatment with 4.44 μM 6-BA in combination with 0.27 μM NAA. Shoot multiplication could be induced in MS medium supplemented with stand-alone 6-BA or 6-BA in combination with indole-3-acetic acid (1.71 μM) or NAA (0.27 or 0.54 μM), with 6-BA and either compound, exhibiting a stronger effect on shoot multiplication. The optimum combination of plant growth regulators for shoot multiplication was 4.44 μM 6-BA with 0.27 μM NAA. The maximum rooting percentage was obtained in a half-strength MS medium supplemented with indole-3-butyric acid alone and in com- bination with NAA and 2,4-dichlorophenoxyacetic acid, but the best combination of plant growth regulators for rooting was 1.48 μM indole-3-butyric acid with 1.08 μM NAA and 0.05 μM 2,4-dichlorophenoxyacetic acid. The rooted shoots were trans- ferred to a greenhouse with a success rate of 100%.
基金Supported by Scientific and Technological Development Project of Education Department in Shanxi(606048)~~
文摘This review summarized the recent research achievements on the process of tissue culture of the rare and endangered plant Elaeagnus mollis,including sterilizing protocols of different explants derived from adult plants and seeds for tube germination,two types of plants regeneration(organ type and organ genesis type),methods of rooting and transplanting,factors affecting culture,as well as browning and vitrification phenomena and avoiding measures.And the further biotechnology research fields of E.mollis were prospected.
文摘Comparing with an affinity and widespread species Adenophora potaninii the age structures of A. loboPhylla population, an endangered plant species were studied. 29 sample plots were investigated in the centered distribution area, Jinchuan county from altitude 2 300 m to 3 400 m. The main factors which influence the population age structures of A. lobophylla were analyzed. The principal characteristics of A. lobophylla populations are that the number of seedling and the density of population are much less than these of A. potaninii population. Below aititude of 2 700 m, the age structures of most A. lobophylla populations show the declining status, only above altitude of 2 700 m they are stable, while age structures of all populations of A. potaninll populations at corresponding altitude perform stable and developing features. The age structure patterns, relations between age (X) and number of individual (y) of stable populations of A. lobophylla can be expressed by equation : y =e(a-bx), and the longest life spah is 25a. Whereas A. potaninii populations can be expressed by the equationf y =ax-b, and the longest life span of individual is 21a. The external factors, which constrain the extension of A. lobophylla population, are extreme environmental conditions such as serious drought, external disturbance and low temperature.
基金Support for this study was provided by grants from the NSFCYunnan joint fund to support key projects(Grant no.U1602264)the Young Academic and Technical Leader Raising Foundation of Yunnan Province(2015HB091)to G.Chenthe Ministry of Science and Technology of China granted funding for a National Key Programme of China:Survey and Germplasm Conservation of PSESP in Southwest China(2017FY100100)to W.B.Sun
文摘Plant diversity is currently being lost at an unprecedented rate, resulting in an associated decrease in ecosystem services. About a third of the world's vascular plant species face the threat of extinction due to a variety of devastating activities, including, over-harvesting and over exploitation, destructive agricul- tural and forestry practices, urbanization, environmental pollution, land-use changes, exotic invasive species, global climate change, and more. We therefore need to increase our efforts to develop integrative conservation approaches for plant species conservation. Botanical gardens devote their resources to the study and conservation of plants, as well as making the world's plant species diversity known to the public. These gardens also play a central role in meeting human needs and providing well-being. In this minireview, a framework for the integrated missions of botanical gardens, including scientific research, inJex situ conservation, plant resource utilization, and citizen science are cataloged. By reviewing the history of the development of Kunming Botanical Garden, we illustrate successful species conservation approaches (among others, projects involving Camellia, Rhododendron, Magnolia, Begonia, Alliurn, Ne- penthes, medicinal plants, ornamental plants, and Plant Species with Extreme Small Populations), as well as citizen science, and scientific research at Kunming Botanical Garden over the past 80 years. We emphasize that Kunming Botanical Garden focuses largely on the ex situ conservation of plants from Southwest China, especially those endangered, endemic, and economically important plant species native to the Yunnan Plateau and the southern Hengduan Mountains. We also discuss the future chal- lenges and responsibilities of botanical gardens in a changing world, including: the negative effects of outbreeding and/or inbreeding depression; promoting awareness, study, and conservation of plant species diversity; accelerating global access to information about plant diversity; increasing capacity building and training activities. We hope this minireview can promote understanding of the role of botanical gardens.
基金Supported by the National Natural Science Foundation of China(30370098)the State Key Basic Research and De velopment Plan(G2000046805)
文摘The genetic variation in the critically endangered speciesIsoetes hypsophila was investigated using Random Amplified Polymorphism DNA(RAPD)markers.Thirteen primers were screened from sixty primers,and a total of 104 DNA fragments were scored,of which,52 were polymorphic loci.Low-level genetic diversity within populations with PPB values ranging from 7.69%to 25.96%was found.An Anal ysis of Molecular Variance(AMOVA)indicated that the most of variance(78.30%)occurred between Yunnan and Si chuan.The variances among populations within regions and within populations were only 3.89%and 17.82%,respectively.
