Considering the effects of global warming,humans need to face the possibility of an ice-free Arctic during summer.Russia spans Eurasia and occupies more Arctic lands than any other country.This vast area has a great v...Considering the effects of global warming,humans need to face the possibility of an ice-free Arctic during summer.Russia spans Eurasia and occupies more Arctic lands than any other country.This vast area has a great variety of species,and the geography and environment of the Arctic have endowed these species with unique and valuable properties.All the world’s ancient nations have their traditional knowledge.The indigenous traditional knowledge of the Arctic and the knowledge embedded in traditional Chinese medicine are part of the world’s time-honored wisdom.Some of this ancient lore cannot be verified by modern scientific methods,but the methods are effective in practice,triggering further exploration and innovation.Russian Arctic indigenous people have a long history of using the Arctic biological resources.The use of therapeutic materials in traditional Chinese medicine has many similarities with the use of Arctic biological resources by indigenous peoples.Both types of traditional knowledge can inspire new approaches to the development of the Arctic biological resources.China and Russia are among the world’s largest countries,and it is important that they cooperate in developing the Arctic biological resources.The development of sustainable use of these resources,while updating traditional knowledge,is an urgently needed investment that requires an innovative approach.展开更多
The Qinba areas,located in the Central China,represent 317000 km2,cover 6 provinces.The major mountain of Qinba areas,the Qinling,separates China North and South.This region is one of the areas with the most biodivers...The Qinba areas,located in the Central China,represent 317000 km2,cover 6 provinces.The major mountain of Qinba areas,the Qinling,separates China North and South.This region is one of the areas with the most biodiversity and ecological importance in China and globally,and considered as natural gene bank and bio-resource bank.Qinba mountain areas,together with the Alps in Europe and the Rocky Mountains in North America,are known as the"Three sisters of the earth"by the geological and biological circles.Most of the lands in this region are protected as national park,natural reserve,water resource protection area,etc.These areas have well preserved ecosystem and breeding and habitat area for many endangered species of plants and animals,inculding Panda.In this region,there are more than 4000 species of higher plants,about 2000 species of medicinal plants and animals,200 species of wild ornamental plants and 180 species of economic fungi with edible and medicinal value in those areas.Medicinal plant cultivation,eco-agriculture and ecotourism are the major industries in this region.The State Key Laboratory of Biological Resources and Ecological Environment of Qinba Areas,located in Hanzhong,the central city of Qinba,is focusing on pan-regional biological resources research and rational utilization,ecological protection,and comprehensive and coordinated regional development.展开更多
Intellectual property system gives rise to international concern in the context of development and protection of the marine biological genetic resources beyond the national jurisdiction. The core argument is whether c...Intellectual property system gives rise to international concern in the context of development and protection of the marine biological genetic resources beyond the national jurisdiction. The core argument is whether can be current international intellectual property system plays an active role for balancing the respective benefits to make sure resolve this special area issue. The Agreement On Trade-related Aspects of Intellectual Property Right (TRIPS Agreement) provides basic requirements to international intellectual property application. This paper is intended to examine the feasibility of TR1PS clauses in the above context and then some suggestions are put forth.展开更多
The growing development of biological products highlights the social and environmental responsibility that several industrial companies are facing in recent years.In this context,the advancement of bioprocessing as an...The growing development of biological products highlights the social and environmental responsibility that several industrial companies are facing in recent years.In this context,the advancement of bioprocessing as an alternative for exploring the potential of ecologically based products,especially in biofuels,food,and agro-industrial business,exposes the rational efficiency of the application of renewable sources in different industrial segments.Industries strongly associated with food production concentrate large amounts of wastes rich in bioactive compounds.A range of highly effective technologies has been highly explored to recover large concentrations of prominent compounds present in these materials.The advances in this scenario assurance value addition to these by-products,in addition to highlighting their various technological applications,considering the biorefinery and ecologically based production concepts.Accordingly,this review article described a detailed and systematic approach to the importance of using bioactive compounds and exploring the main sources of these elements.Also,some recent and innovative research that has achieved encouraging results was highlighted.Furthermore,the study included the main extraction technologies that have been investigated as a strategy of prospecting the application of bioactive compounds and optimizing the processes for obtaining natural compounds from plant sources.Finally,future outlooks were presented to contribute to the innovative opportunities and applicability of highly promising technologies and manipulations of bioactive compounds from a range of perspectives.展开更多
Ecological footprint is a new method to assess sustainable development quantitatively. It translates production into biologically productive areas offering material flows to measure the utilized degree of nature by hu...Ecological footprint is a new method to assess sustainable development quantitatively. It translates production into biologically productive areas offering material flows to measure the utilized degree of nature by humankind. At present, China runs ecological deficits because footprints required for consumption are larger than available ones. In the paper, the ecological footprint model is applied to calculate the deficits by resource, environment and import-export accounting. It is clear that the deficits have caused enormous pressure to resource and environment, which would become bigger with more factors of resource and environment being accounted. In the primary production and energy trade, import footprint turned from deficit to surplus after 1996, which benefited the conservation of national resource. But compared with the huge depletion caused by resource and environment, they had small effects on deficits.展开更多
Nine field trips carried out in Haikou Forestry Farm,Yunnan Province,P.R.China resulted in 681 specimens of wood-decaying fungi.The present paper summarizes 52 species collected that are distributed in 37 genera,16 fa...Nine field trips carried out in Haikou Forestry Farm,Yunnan Province,P.R.China resulted in 681 specimens of wood-decaying fungi.The present paper summarizes 52 species collected that are distributed in 37 genera,16 families,6 orders including their hosts and substrates.A checklist of wood-decaying fungi in Haikou Forestry Farm is also given.Phylogenetic analysis of ITS nrRNA gene region was performed for all the collected samples with maximum likelihood,maximum parsimony and Bayesian inference methods.The phylogenetic tree showed that fifty-two species nested in sixteen families belonging to six orders in Agaricomycetes.展开更多
As a new research focus in the field of biological resources,crayfish shells have great potential for development and utilization.In this review,the typical methods and research progress of separating the primary comp...As a new research focus in the field of biological resources,crayfish shells have great potential for development and utilization.In this review,the typical methods and research progress of separating the primary components such as chitosan,protein,and astaxanthin from crayfish shells and converting crayfish shells into functional carbon-based materials are introduced in detail.Then,the application of crayfish shell and typically modified crayfish-shell biochar in adsorption,antibacterial,electrochemical,etc.is reviewed.Finally,the future research outlook is proposed.This review can provide some perspectives on the development of the application of crayfish shells and crayfish-shell derivatives.展开更多
文摘Considering the effects of global warming,humans need to face the possibility of an ice-free Arctic during summer.Russia spans Eurasia and occupies more Arctic lands than any other country.This vast area has a great variety of species,and the geography and environment of the Arctic have endowed these species with unique and valuable properties.All the world’s ancient nations have their traditional knowledge.The indigenous traditional knowledge of the Arctic and the knowledge embedded in traditional Chinese medicine are part of the world’s time-honored wisdom.Some of this ancient lore cannot be verified by modern scientific methods,but the methods are effective in practice,triggering further exploration and innovation.Russian Arctic indigenous people have a long history of using the Arctic biological resources.The use of therapeutic materials in traditional Chinese medicine has many similarities with the use of Arctic biological resources by indigenous peoples.Both types of traditional knowledge can inspire new approaches to the development of the Arctic biological resources.China and Russia are among the world’s largest countries,and it is important that they cooperate in developing the Arctic biological resources.The development of sustainable use of these resources,while updating traditional knowledge,is an urgently needed investment that requires an innovative approach.
文摘The Qinba areas,located in the Central China,represent 317000 km2,cover 6 provinces.The major mountain of Qinba areas,the Qinling,separates China North and South.This region is one of the areas with the most biodiversity and ecological importance in China and globally,and considered as natural gene bank and bio-resource bank.Qinba mountain areas,together with the Alps in Europe and the Rocky Mountains in North America,are known as the"Three sisters of the earth"by the geological and biological circles.Most of the lands in this region are protected as national park,natural reserve,water resource protection area,etc.These areas have well preserved ecosystem and breeding and habitat area for many endangered species of plants and animals,inculding Panda.In this region,there are more than 4000 species of higher plants,about 2000 species of medicinal plants and animals,200 species of wild ornamental plants and 180 species of economic fungi with edible and medicinal value in those areas.Medicinal plant cultivation,eco-agriculture and ecotourism are the major industries in this region.The State Key Laboratory of Biological Resources and Ecological Environment of Qinba Areas,located in Hanzhong,the central city of Qinba,is focusing on pan-regional biological resources research and rational utilization,ecological protection,and comprehensive and coordinated regional development.
文摘Intellectual property system gives rise to international concern in the context of development and protection of the marine biological genetic resources beyond the national jurisdiction. The core argument is whether can be current international intellectual property system plays an active role for balancing the respective benefits to make sure resolve this special area issue. The Agreement On Trade-related Aspects of Intellectual Property Right (TRIPS Agreement) provides basic requirements to international intellectual property application. This paper is intended to examine the feasibility of TR1PS clauses in the above context and then some suggestions are put forth.
基金the Coordination for the Improvement of Higher Education Personnel(CAPES)the National Council of Technological and Scientific Development(CNPq)the Research Support Foundation of the State of Rio Grande do Sul(FAPERGS).
文摘The growing development of biological products highlights the social and environmental responsibility that several industrial companies are facing in recent years.In this context,the advancement of bioprocessing as an alternative for exploring the potential of ecologically based products,especially in biofuels,food,and agro-industrial business,exposes the rational efficiency of the application of renewable sources in different industrial segments.Industries strongly associated with food production concentrate large amounts of wastes rich in bioactive compounds.A range of highly effective technologies has been highly explored to recover large concentrations of prominent compounds present in these materials.The advances in this scenario assurance value addition to these by-products,in addition to highlighting their various technological applications,considering the biorefinery and ecologically based production concepts.Accordingly,this review article described a detailed and systematic approach to the importance of using bioactive compounds and exploring the main sources of these elements.Also,some recent and innovative research that has achieved encouraging results was highlighted.Furthermore,the study included the main extraction technologies that have been investigated as a strategy of prospecting the application of bioactive compounds and optimizing the processes for obtaining natural compounds from plant sources.Finally,future outlooks were presented to contribute to the innovative opportunities and applicability of highly promising technologies and manipulations of bioactive compounds from a range of perspectives.
文摘Ecological footprint is a new method to assess sustainable development quantitatively. It translates production into biologically productive areas offering material flows to measure the utilized degree of nature by humankind. At present, China runs ecological deficits because footprints required for consumption are larger than available ones. In the paper, the ecological footprint model is applied to calculate the deficits by resource, environment and import-export accounting. It is clear that the deficits have caused enormous pressure to resource and environment, which would become bigger with more factors of resource and environment being accounted. In the primary production and energy trade, import footprint turned from deficit to surplus after 1996, which benefited the conservation of national resource. But compared with the huge depletion caused by resource and environment, they had small effects on deficits.
基金supported by the Yunnan Fundamental Research Project(Grant No.202001AS070043)the Science Foundation of Southwest Forestry University(Project No.111715).
文摘Nine field trips carried out in Haikou Forestry Farm,Yunnan Province,P.R.China resulted in 681 specimens of wood-decaying fungi.The present paper summarizes 52 species collected that are distributed in 37 genera,16 families,6 orders including their hosts and substrates.A checklist of wood-decaying fungi in Haikou Forestry Farm is also given.Phylogenetic analysis of ITS nrRNA gene region was performed for all the collected samples with maximum likelihood,maximum parsimony and Bayesian inference methods.The phylogenetic tree showed that fifty-two species nested in sixteen families belonging to six orders in Agaricomycetes.
基金support from the Key Special Program on the S&T for the Pollution Control,and Treatment of Water Bodies(No.2017ZX07603-003).
文摘As a new research focus in the field of biological resources,crayfish shells have great potential for development and utilization.In this review,the typical methods and research progress of separating the primary components such as chitosan,protein,and astaxanthin from crayfish shells and converting crayfish shells into functional carbon-based materials are introduced in detail.Then,the application of crayfish shell and typically modified crayfish-shell biochar in adsorption,antibacterial,electrochemical,etc.is reviewed.Finally,the future research outlook is proposed.This review can provide some perspectives on the development of the application of crayfish shells and crayfish-shell derivatives.