期刊文献+
共找到7篇文章
< 1 >
每页显示 20 50 100
Changes in climatic conditions drive variations in arbuscular mycorrhizal fungi diversity and composition in semi-arid oak forests
1
作者 Nahid Jafarian Javad Mirzaei +1 位作者 Reza Omidipour Yahya Kooch 《Journal of Forestry Research》 SCIE EI CAS CSCD 2024年第5期106-119,共14页
Arbuscular mycorrhizal fungi(AMF)play a vital role in plant productivity and ecosystem functions.However,their responses to abiotic factors(i.e.,climate,physiography,and soil properties)are unknown,especially across c... Arbuscular mycorrhizal fungi(AMF)play a vital role in plant productivity and ecosystem functions.However,their responses to abiotic factors(i.e.,climate,physiography,and soil properties)are unknown,especially across climatic gradients and slope aspects in arid and semi-arid ecosys-tems.In this study,using 60 composite soil samples,direct and indirect effects of climate factors and slope aspects on AMF diversity,composition and spore density were studied.The findings indicate that climate has a more direct influ-ence on soil properties(P<0.001)in comparison to slope aspect(P=0.449).In contrast,climate significantly affected AMF diversity and composition,with the highest diversity in dryer areas.Soil pH had the highest correlation with different facets of AMF diversity.Structural equation modeling(SEM)indicated that only a small part of the variation in AMF diversity and spore density could be explained by climate characteristics,slope aspect and soil properties.Based on SEM results,climate was the most important determinant of AMF diversity and spore density;slope aspect had a less critical role.The outputs suggest that variations in AMF diversity are derived by the direct effects of climate and the indirect effect of soil chemical properties.In addition,with increasing dryness,sporulation and AMF diversity increased. 展开更多
关键词 AMF diversity and composition Physiographic factors Semi-arid ecosystems Zagros forest
下载PDF
Urbanization strengthens the edge effects on species diversity and composition of woody plants in remnant forests 被引量:1
2
作者 Zijin Wang Jingyi Yang 《Forest Ecosystems》 SCIE CSCD 2022年第5期657-665,共9页
Background:Urban remnant forests are embedded in urban areas and are threatened directly and indirectly by urbanization.The direct effects(e.g.,loss of area)have been well studied.However,knowledge about the indirect ... Background:Urban remnant forests are embedded in urban areas and are threatened directly and indirectly by urbanization.The direct effects(e.g.,loss of area)have been well studied.However,knowledge about the indirect influence of urbanization through edge effects on the biodiversity in remnant forests is limited.Methods:In this study,we surveyed woody plant species in 72 plots in nine remnant forest patches in Guiyang,China.We examined the influences of urbanization and edge effects on the species diversity and composition of woody plants in remnant forests.We compared alpha diversities and quantified compositional dissimilarities in interior and edge sites at different levels of urbanization.We also measured the niche width of the recorded plant species and assessed whether high levels of urbanization and edge effects increased the number of generalist species.Results and conclusions:The Shannon index,the Simpson index and the Pielou index of adult trees were lowest in the edge habitat under high levels of urbanization.Significant differences in the Shannon index and the Simpson index of sapling/seedling were detected between interior and edge sites under low urbanization.The edge effects on the species composition of adult trees were intensified by high levels of urbanization.Woody plant species with wide niche widths were more abundant at edge sites under high levels of urbanization.Therefore,we recommend that urban expansion surrounding remnant patches should be strictly controlled to alleviate edge effects on biodiversity. 展开更多
关键词 Remnant forest URBANIZATION Edge effect Species diversity and composition Niche width Guiyang
下载PDF
Environmental drivers of soil microbial activity and diversity along an elevational gradient
3
作者 PENG Si-li GE Zhi-wei +1 位作者 LIU Gang-cai MAO Ling-feng 《Journal of Mountain Science》 SCIE CSCD 2022年第5期1336-1347,共12页
Microbial functional and structural patterns and drivers along elevational gradients have recently received increasing attention.In this study,we examined soil bacterial and fungal community diversity,compositions,and... Microbial functional and structural patterns and drivers along elevational gradients have recently received increasing attention.In this study,we examined soil bacterial and fungal community diversity,compositions,and microbial activities(i.e.,soil basal respiration and extracellular enzyme activities)across an elevational gradient from 1148 m to 2080 m(consists of six elevations)in the Yuanmou dry-hot valley located in Southwest China.Environmental factors,including soil temperature,moisture content,pH,soil organic carbon(SOC),total nitrogen(TN),the C/N ratio,total phosphorus(TP),and aboveground plant biomass were also determined.The results showed that soil bacterial alpha diversity(Shannon index)was unaffected by elevation,whereas fungal alpha diversity firstly increased significantly from 1148 m to 1539 m but did not increase further at higher elevations.Bacterial Shannon index was significantly correlated with SOC,whereas fungal Shannon index was remarkably associated with soil temperature.Microbial activity,beta diversities and community composition varied with elevation,but none of them showed a consistent trend.Monte Carlo test revealed that soil moisture followed by temperature,and pH,were the primary drivers of bacterial community composition.Soil fungal community composition significantly depended on soil moisture.Overall,our study suggested bacterial diversity and composition were determined by climatic(moisture and temperature)and edaphic properties(SOC and pH),while fungal diversity and composition were structured mainly by climatic factors.These findings may contribute to a better understanding of microbial responses along elevational gradients in this semi-arid region. 展开更多
关键词 BACTERIA FUNGI Composition and diversity Basal respiration Enzyme activity
下载PDF
Forest succession trajectories after fi res in valleys and on slopes in the Greater Khingan Mountains,China 被引量:2
4
作者 Chao Zhong Meng Guo +4 位作者 Fenfen Zhou Jianuo Li Fangbing Yu Futao Guo Wenshan Li 《Journal of Forestry Research》 SCIE CAS CSCD 2023年第3期623-640,共18页
Accurate assessment of postfire vegetation recovery is important for forest management and the conservation of species diversity.Topography is an important factor aff ecting vegetation recovery but whether species com... Accurate assessment of postfire vegetation recovery is important for forest management and the conservation of species diversity.Topography is an important factor aff ecting vegetation recovery but whether species composition varies with diff erent recovery stages and between valleys and slopes is unclear.Using fi eld data and a space-for-time substitution method,we quantifi ed species richness and diversity to obtain the successional trajectories of valleys and slopes.We surveyed the species of 10 burned areas from 1986 to 2010 in the Greater Khingan Mountains in northeastern China,and found that with increasing postfi re recovery time,species richness in both valleys and slopes gradually decreased.However,species richness in valleys was relatively higher.Shrubs recovered rapidly in the valleys,and species diversity maximized approximately 11 years after fi re.However,it maximized 17–18 years after fi re on the slopes.Numerous shade-tolerant species were present in the valleys 11 years after fi re but not until after 18 years on slopes.Larch appeared earlier than 11 years after fi re and its recovery was slow in the valleys but appeared quickly on slopes and established dominance early.Our study provides some new insights into vegetation succession after fi re at local scales.After fi re,the vegetation recovery processes diff er with topography and it aff ects the initial rate of recovery and species composition at diff erent successional stages. 展开更多
关键词 Vegetation recovery Valleys and slopes Space-for-time substitution Species richness/diversity/composition Greater Khingan Mountains
下载PDF
Metagenomic Analysis of Mangshan Pit Viper (Protobothrops mangshanensis) Gut Microbiota Reveals Differences among Wild and Captive Individuals Linked to Hibernating Behaviors 被引量:1
5
作者 Bing ZHANG Xiangyun DING +2 位作者 Jianping JIANG Linhai LI Daode YANG 《Asian Herpetological Research》 SCIE CSCD 2022年第4期251-268,共18页
Gut microbiota play important roles in the immunity,digestion,and energy meta bolism of their reptile hosts.Mangshan pit viper(Protobothrops mangshanensis)is a critically endangered snake species that is a Class I nat... Gut microbiota play important roles in the immunity,digestion,and energy meta bolism of their reptile hosts.Mangshan pit viper(Protobothrops mangshanensis)is a critically endangered snake species that is a Class I national protected species in China.Little is known regarding the relationship between P.mangshanensis and their gut microbial communities.In this study,the gut microbiota of wild P.mangshanensis individuals,artificially hiberna ting captive individuals,and non-hibernating captive individuals were compared across nine samples.Comparative shotgun metagenomic analysis was used to investigate the taxonomic composition,diversity,and function of P.mangshanensis gut microbial communities and assess whether their gut microbiomes were affected by their living environments and captivity conditions.The dominant phyla within P.mangshanensis gut microbial communities were Proteobacteria(65.55%),Bacteroidetes(15.97%),and Firmicutes(8.11%).Enriched functional pathways within the gut microbiota included meta bolism(54.9%),environmental information processing(9.67%),and genetic information processing(9.37%).Wild snake gut communities exhibited higher microbial diversity than the other two groups.The gut microbiomes of wild and hibernating captive snakes may be more reflective of healthy intestinal homeostasis than that in nonhibernating snakes.Specifically,non-hibernating snakes exhibited increased levelsof potentially pathogenic populations and functional specialization within gut microbial communities.Thus,different livingenvironments and captivitymethodsmay correspond to major shifts in microbiota composition,diversity,and function within P.mangshanensis.This study provides important insights to help guide the conservation of P.mangshanensis,while also carrying broad implications for our understanding of the effects of living environments and non-hibernating captivity conditions on the gut microbiota of snakes. 展开更多
关键词 composition and diversity gene functions and pathways gutmicrobiota METAGENOMICS Protobothrops mangshanensis
下载PDF
Fecal microbiota reveal adaptation of herbivores to the extreme environment of the Qinghai–Tibet Plateau
6
作者 Hao Zou Qi Li +4 位作者 Jie Liu Xiangtao Wang Qun Gao Yunfeng Yang Xinquan Zhao 《Grassland Research》 2024年第2期155-170,共16页
Background:Gut microbiota is pivotal in regulating hosts'biological processes and maintaining homeostasis,but knowledge about its role in wild herbivores in extreme environments remains limited.Methods:Gut bacteri... Background:Gut microbiota is pivotal in regulating hosts'biological processes and maintaining homeostasis,but knowledge about its role in wild herbivores in extreme environments remains limited.Methods:Gut bacteria and fungi were sequenced in ruminant(Chiru and Yak)and nonruminant(Kiang)herbivores on the Qinghai–Tibet Plateau,and their community structure,co-occurrence networks,functions,and assembly mechanisms were investigated using multivariate ecological and statistical methods.Results:Kiang had lower gut microbial diversity than Chiru and Yak.Bacterial host-specific exclusivity was greater than that of fungi.In addition to the evidence of glycan biosynthesis and carbohydrate metabolism,Chiru had a high Firmicutes/Bacteroidetes ratio and low animal pathogen abundance,suggesting better adaptation to the plateau's harsh environment.Additionally,members of gut microbiota tended to co-occur rather than co-exclude in all herbivores.Different network complexity and stability patterns were observed between bacterial and fungal communities.Furthermore,gut bacterial assembly was primarily controlled by stochastic dispersal limitation and drift,whereas fungal assembly was primarily controlled by deterministic homogeneous selection except in Chiru.Conclusions:On the Qinghai–Tibet Plateau,Chiru and Yak exhibit more diverse gut microbiota and more diverse metabolic functions than Kiang,and gut bacteria are more divergent than gut fungi in these herbivores. 展开更多
关键词 community assembly composition and diversity gut microbiota Qinghai-Tibet Plateau ruminant and nonruminant herbivores
原文传递
Development and applications of functional gene microarrays in the analysis of the functional diversity,composition,and structure of microbial communities 被引量:9
7
作者 Zhili HE Joy DVAN NOSTRAND +1 位作者 Ye DENG Jizhong ZHOU 《Frontiers of Environmental Science & Engineering》 SCIE EI CSCD 2011年第1期1-20,共20页
Functional gene arrays(FGAs)are a special type of microarrays containing probes for key genes involved in microbial functional processes,such as biogeochemical cycling of carbon,nitrogen,sulfur,phosphorus,and metals,b... Functional gene arrays(FGAs)are a special type of microarrays containing probes for key genes involved in microbial functional processes,such as biogeochemical cycling of carbon,nitrogen,sulfur,phosphorus,and metals,biodegradation of environmental contaminants,energy processing,and stress responses.GeoChips are considered as the most comprehensive FGAs.Experimentally established probe design criteria and a computational pipeline integrating sequence retrieval,probe design and verification,array construction,data analysis,and automatic update are used to develop the GeoChip technology.GeoChip has been systematically evaluated and demonstrated to be a powerful tool for rapid,specific,sensitive,and quantitative analysis of microbial communities in a high-throughput manner.Several generations of GeoChip have been developed and applied to investigate the functional diversity,composition,structure,function,and dynamics of a variety of microbial communities from different habitats,such as water,soil,marine,bioreactor,human microbiome,and extreme ecosystems.GeoChip is able to address fundamental questions related to global change,bioenergy,bioremediation,agricultural operation,land use,human health,environmental restoration,and ecological theories and to link the microbial community structure to environmental factors and ecosystem functioning. 展开更多
关键词 functional gene arrays(FGAs) GeoChip microbial communities functional diversity/composition/structure environmental factor ecosystem functioning
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部