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Seed Germination and Vegetative Propagation of Promising Decorative Lonicera tatarica L. (Caprifoliaceae Juss.), Introduced into the Tashkent Botanical Garden (Uzbekistan)
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作者 Sobitjon S. Nosirov Nargiza K. Rakhimova Asilbek Kh. Matismoilov 《American Journal of Plant Sciences》 CAS 2023年第4期496-505,共10页
Seed germination (in laboratory and field conditions) and vegetative reproduction (by cuttings) of a promising decorative species—Lonicera tatarica L. (Caprifoliaceae Juss.) was studied for the first time in the cond... Seed germination (in laboratory and field conditions) and vegetative reproduction (by cuttings) of a promising decorative species—Lonicera tatarica L. (Caprifoliaceae Juss.) was studied for the first time in the conditions of introduction of the Tashkent Botanical Garden of Uzbekistan. Thus, the optimal temperature for germination of L. tatarica seeds in laboratory conditions is +20°C + 22°C, at which germination was 73%. The germination rate of seeds sown in autumn in the field was 62%, and the germination rate of seeds sown in spring was 71%. It was noted that in greenhouse conditions at an air temperature of 20°C - 22°C and a relative humidity of 49% - 53%, the rootability of cuttings was 75%. It was revealed that the studied species adapted well to the conditions of introduction. Taking into account the effectiveness of vegetative reproduction of L. tatarica, it can be recommended for improving the aesthetic condition and landscaping of cities, landscaping and landscape design. 展开更多
关键词 Lonicera tatarica Introduction Promising DECORATIVE Seed Germination Vegetative Reproduction CUTTINGS Tashkent botanical garden Uzbekistan
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Former Botanical Garden of ORSTOM(Côte d’Ivoire):What Remain after Thirty Years of Abandonment and Forest Restoration
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作者 Ouattara Noufou Doudjo Ouattara Ahmed +3 位作者 Douffi Kouakou Guy-Casimir KonéDofoungo Coulibaly Brahima Bakayoko Adama 《Journal of Botanical Research》 2023年第1期1-11,共11页
Botanical gardens represent important places for ex situ conservation.One of these botanical gardens has been abandoned in Côte d’Ivoire for 30 years.This is the former botanical garden of ORSTOM.This study was ... Botanical gardens represent important places for ex situ conservation.One of these botanical gardens has been abandoned in Côte d’Ivoire for 30 years.This is the former botanical garden of ORSTOM.This study was conducted to determine the level of diversity of this former garden in order to assess the opportunity for its rehabilitation.The authors carried out inventories in 18 quadrats of 500 m2 through the vegetation to collect woody species.Dendrometric measurements(height,diameter)were also recorded to assess the structure of the site.A total of 190 species have been identified.They belong to 141 genera and 47 families.This former botanical garden contains important species because of their origin,status or particularity(threatened,endemic,rarity,etc.).A total of 19 threatened species including 2 endangered and west African endemic(Chrysophyllum azaguieanum J.Miège,Placodiscus pseudostipularis)were found at the site.Also,Chrysophyllum azaguieanum is declared extinct from Côte d’Ivoire.Four species are rare in the flora of Côte d’Ivoire:Balanites wilsoniana,Chrysophyllum azaguieanum,Gilletiodendron kisantuense and Loesenera kalantha.The most abundant species is Hopea odorata.Although this introduced species is considered globally vulnerable,it presents a risk of invasion in the forest of Côte d’Ivoire.The diameter and height structures show that all the stages of development are presented indicating a good regeneration on the site.Ultimately,this botanical garden deserves to be rehabilitated and especially urgent management of Hopea odorata is needed to prevent an invasion of this species. 展开更多
关键词 botanical garden ORSTOM Côte d’Ivoire Forest restoration ex situ conservation
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Fifty Years of Botanical Gardens in China 被引量:10
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作者 贺善安 《Acta Botanica Sinica》 CSCD 2002年第9期1123-1133,共11页
The development, distribution and features of one hundred and forty botanical gardens (BGs) in China are reported and their functions on research, conservation, display and utilization of biodiversity are summarized i... The development, distribution and features of one hundred and forty botanical gardens (BGs) in China are reported and their functions on research, conservation, display and utilization of biodiversity are summarized in this paper. The contributions to the social and economic development in the early stage of Chinese BGs with the researches of economic plant (tobacco), medicinal plant (yam) and wild fruit tree resources are evaluated. The theoretical and applied achievements in recent years in seed science, plant conservation, economic plant introduction, acclimatization and breeding are also described. A general scope of living plant collections in Chinese BGs is presented and the outstanding ones, including Magnoliaceae, Zingiberaceae, Cycadaceae, medicinal plants, Actinidia and Rhododendron are particularly mentioned. With special reference to Chinese penjing art garden and silicified wood garden, the development of scientific popularization and tourism in BGs is reviewed. 展开更多
关键词 botanical garden BIODIVERSITY plant conservation medicinal plant plant introduction and acclimatization plant breeding plant collection
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The role of botanical gardens in scientific research, conservation, and citizen science 被引量:6
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作者 Gao Chen Weibang Sun 《Plant Diversity》 SCIE CAS CSCD 2018年第4期181-188,共8页
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
关键词 botanical gardens Citizen science Conservation biology Endangered plants GERMPLASM HORTICULTURE
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The Localization of UK Experience in Environmental Education in Fairy Lake Botanical Garden, Shenzhen, China 被引量:1
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作者 Shan Li Qing Wang Tao Wang 《Journal of Agricultural Science and Technology(A)》 2018年第2期55-58,共4页
In China, the environmental education (EE) is a brief new but popular topic in recent several years as a method to cope with the gap between nature and children. EE was started in UK with a long-term development and... In China, the environmental education (EE) is a brief new but popular topic in recent several years as a method to cope with the gap between nature and children. EE was started in UK with a long-term development and the useful experience can be utilized for the Chinese EE development. As a case study, the experiences of UK organizations were summarized and applied in the EE system in Fairy Lake Botanical Garden in Shenzhen (SZBG), China. The localization of UK’s experience in the EE development in SZBG in terms of EE program, course content and resource was summarized in this paper. There are also discussions for the future update of EE in SZBG and for other local organizations like botanical gardens, wetland parks, nature reserve etc. 展开更多
关键词 Environmental education botanical garden LOCALIZATION
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Preliminary Study on Prevention and Control against Pests in Actinidia Plants in Lushan Botanical Garden of China
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作者 Yu Zhijun Liu Jianjun +1 位作者 Song Li Hu Zongwen 《Plant Diseases and Pests》 CAS 2013年第4期29-31,共3页
Survey on pests in Actinidia plants in Lushan botanical garden of China found that the insects causing damage on Actinidia plants mainly were grasshop- pers, scarabs, stinkbugs, leafhoppers, larvae of butterflies and ... Survey on pests in Actinidia plants in Lushan botanical garden of China found that the insects causing damage on Actinidia plants mainly were grasshop- pers, scarabs, stinkbugs, leafhoppers, larvae of butterflies and moths, leaf milers and borers, belonging to 50 species and 23 families. According to the regularity of their reproduction and development, as well as the characteristics of pest d mnages on plants, chemical agents were applied in flower bud expansion stage and early fruit setting stage of Actinidia plants. The results showed that rational application of chemical agents before and after flowering stage could effectively control largescale occurrence of pests. 展开更多
关键词 Lushan botanical garden ACTINIDIA Pest control
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A Case Study of an in Situ Botanical Garden in Zagori, Greece
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作者 Karras George Tsirogiannis Ioannis Fillis Evaggelos 《Journal of Agricultural Science and Technology(B)》 2013年第11期823-831,共9页
Between 1998 and 2002, a project for the protection of the natural environment was applied, in the framework of the EU Initiative "L.I.F.E.", in Zagori, a mountainous region in Northwestern Greece with rich natural ... Between 1998 and 2002, a project for the protection of the natural environment was applied, in the framework of the EU Initiative "L.I.F.E.", in Zagori, a mountainous region in Northwestern Greece with rich natural and human environment. One of the actions that took place as part of the above project was the creation of an in situ botanical garden in order to raise public awareness of the environment and the flora of the region. During the operation of the garden, the visitors answered questions related to their satisfaction or dissatisfaction of their visit. They also made suggestions for the improving of the garden. According to the number of the visitors and the analysis of the questionnaires, the operation of the garden was satisfactory. The in situ botanical garden proved useful not only for environmental awareness and education, but also for local economy. Two years since its creation, the garden eventually stopped operating. The main reason was lucky of funding. Based on the experience gained, it is suggested that the garden should be re-created under a new approach. Regions, such as Zagori, whose economy is based on environmental tourism, would benefit greatly from such structures. Moreover, in situ botanical gardens can play an important role in the protection of Greece's rich flora. 展开更多
关键词 In situ botanical garden FLORA environmental tourism Zagori Greece.
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Research on the Planning of Medicinal Botanical Gardens Based on the Theme of Science Popularization Education
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作者 Miaoneng ZHOU Wenhui YE Xiaoru CHEN 《Medicinal Plant》 CAS 2021年第6期76-77,81,共3页
The functions of medicinal botanical gardens are introduced firstly,and then the application status and planning principles of medicinal botanical gardens based on the theme of science popularization education are ana... The functions of medicinal botanical gardens are introduced firstly,and then the application status and planning principles of medicinal botanical gardens based on the theme of science popularization education are analyzed.Moreover,a typical application case is analyzed and summarized.Constructing a scientific medicinal botanical garden is conducive to increasing people's understanding of medicinal plants,and also meets the requirements of current national policies,thereby generating greater economic and social benefits. 展开更多
关键词 Medicinal botanical garden Science popularization education PLANNING
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Vegetative Reproduction through Green Cuttings of the Introduced Form <i>Weigela florida</i>f. “<i>Bristol ruby</i>” (Caprifoliaceae) in the Conditions of the Tashkent Botanical Garden (Uzbekistan)
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作者 Dilovar A. Khamraeva Nargiza K. Rakhimova Eldor E. Temirov 《American Journal of Plant Sciences》 2021年第7期994-1001,共8页
For the first time, work was carried out on the vegetative reproduction of <i><span style="font-family:Verdana;">Weigela florida </span></i><span style="font-family:Verdana;&q... For the first time, work was carried out on the vegetative reproduction of <i><span style="font-family:Verdana;">Weigela florida </span></i><span style="font-family:Verdana;">f.</span><i> </i><span style="font-family:Verdana;">“</span><i><span style="font-family:Verdana;">Bristol Rubru</span></i><span style="font-family:Verdana;">” (Caprifoliaceae) was introduced into the Tashkent Botanical Garden (Uzbekistan) through green branches. As a result of the research conducted, it was noted that the vegetative reproduction possibil</span><span><span style="font-family:Verdana;">ities of the “</span><i><span style="font-family:Verdana;">Bristol Ruby</span></i><span style="font-family:Verdana;">” form of </span><i><span style="font-family:Verdana;">Weigela florida</span></i><span style="font-family:Verdana;"> were high. W</span></span><span style="font-family:Verdana;">hen placed on stimulants of two types (kornevin, heteroauxin), it became known that kornevin stimulants are effective in taking root. It was found that the effective way to multiply this form by green branches in a vegetative way—when placed on the stimulator of kornevin from the middle part of the rod, the indicators of root extraction of the cuttings were 93.3%, which is more effective than other options. When vegetative reproduction of this decorative form, it is recommended that the seedlings come to the standard state in 3 - 4 years and the root extraction indicators are high—this is its use as the second row shrubs in the case of growing on strongly saline soils in the conditions of Uzbekistan. The cultivation of green cuttings of the form in the fog showed that they are more effective than in the open ground.</span> 展开更多
关键词 Form Weigela florida f. Bristol Ruby (Caprifoliaceae) Vegetative Reproduction Green Shoots Growth Regulators Biologically Active Substances Tashkent botanical garden Uzbekistan Introduction
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Some Thoughts on Science-based Botanical Garden Establishment
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作者 Lou Zhiping Miao Haixia +1 位作者 Chen Jin Su Ronghui 《Bulletin of the Chinese Academy of Sciences》 2010年第4期235-239,共5页
Through analysis of the historical and present development of botanical gardens, both domestic and international, with particular focus on botanical garden practices within the Chinese Academy of Sciences (CAS), the a... Through analysis of the historical and present development of botanical gardens, both domestic and international, with particular focus on botanical garden practices within the Chinese Academy of Sciences (CAS), the authors propose that science-based botanical gardens (which differ from common public gardens), should be founded on plant diversity inventory and ex-situ conservation of wild plant species. Efforts should be directed to rarer species from biodiversity-rich areas and biodiversity hotspots, utilizing cutting-edge technologies to effectively preserve germplasm in living collections. Science-based botanical garden management should be directed by sound scientific evaluation of plant resources and guaranteed by innovative operational mechanisms. Science-based botanical gardens should also emphasize the establishment of identifiable and specialized living collections, research platforms and recruitment of qualified experts. In addition to curating living specimens, science-based botanical gardens should pursue research and development of new plant varieties or patents based on their plant collections, thus providing continual support to bio-industry. 展开更多
关键词 science-based botanical gardens ex situ conservation scientific evaluation sustainable utilization BIO-INDUSTRY
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Boosting the Development of CAS Botanical Gardens
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《Bulletin of the Chinese Academy of Sciences》 2002年第2期66-67,共2页
  CAS is to initiate a 150-millionyuan (about US $18 million) project to boost the development of its network of botanical gardens throughout the country. ……
关键词 Boosting the Development of CAS botanical gardens CAS
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CAS Botanical Gardens
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《Bulletin of the Chinese Academy of Sciences》 2002年第2期110-113,共4页
China is a large country with rich plant resources. Because of its unique geographical position, on its 9,600,000 km2 of territory are found about 30,000 species of higher plants, accounting for 10% of the world's... China is a large country with rich plant resources. Because of its unique geographical position, on its 9,600,000 km2 of territory are found about 30,000 species of higher plants, accounting for 10% of the world's flora species and ranking the country third in the world in abundance of plant species. 展开更多
关键词 CAS botanical gardens
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Visiting Ford Botanical Garden
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作者 唐娜 《小雪花(小学快乐作文)》 2004年第16期20-24,共5页
关键词 Visiting Ford botanical garden
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Assessing the invasion risk of botanical garden's exotic threatened collections to adjacent mountain forests: A case study of Cibodas Botanical Garden
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作者 JUNAEDI Decky Indrawan PUTRI Dwinda Mariska KURNIAWAN Vandra 《Journal of Mountain Science》 SCIE CSCD 2021年第7期1847-1855,共9页
A primary objective of botanical gardens is to conserve threatened plant species from different regions and countries.However,such ex-situ conservation practices for exotic plant species may pose a significant plant i... A primary objective of botanical gardens is to conserve threatened plant species from different regions and countries.However,such ex-situ conservation practices for exotic plant species may pose a significant plant invasion risks.In this study,we predict the naturalization probability of exotic threatened plant species of Cibodas Botanical Garden(CBG) collections based on leaf trait(specific leaf area,SLA) or as a function of invasion risk assessment scoring system(Tropical Weed Risk Assessment Protocol,TWRAP).We found that SLA and TWRAP were positively correlated with naturalization probability.The TWRAP model produced higher predictive probabilities with larger uncertainty compared to SLA model.Parmentiera cereifera and Burretiodendron hsienmu are two species that have highest naturalization probability based on SLA model.Chamaedorea oblongata has the highest naturalization probability based on TWRAP model.From practical and management point of view,we recommend the simultaneous use of SLA-based and TWRAP-based invasive species risk assessment to estimate the naturalization risk of exotic threatened collections of botanical gardens to adjacent mountain forests.Finally,given the important conservation value of threatened exotic collection of botanical garden,we need to be aware with the invasion risks of these species.The threatened condition of a plant species is not only caused by its natural characteristics but also may be caused(in fact mostly confounding with) by external disturbance either natural catastrophic or human related activities.Thus,a threatened species may not necessarily a noninvasive species outside their natural distribution ranges. 展开更多
关键词 Leaf trait Specific leaf area Invasion ecology Tropical mountain forest Risk assessment Scoring assessment Cibodas Botanic gardens
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Primary Results of Ipomoea nil (L.) Roth. of Introduction Conditions in Tashkent Botanical Garden
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作者 Sherzod Erdonov Azizbek Maxmudov Ozodbek Abduraimov 《American Journal of Plant Sciences》 CAS 2024年第11期1023-1030,共8页
The article is devoted to the study of bioecological features of Ipomoea nil in the conditions of the Tashkent Botanical Garden. Seeds were sown 8 - 10 cm deep in the first decade of April. Seed germination averaged 8... The article is devoted to the study of bioecological features of Ipomoea nil in the conditions of the Tashkent Botanical Garden. Seeds were sown 8 - 10 cm deep in the first decade of April. Seed germination averaged 85% - 90%. The beginning of vegetation and leaf regrowth in Tashkent is observed in the second decade of April. The flowering phase was observed in the first decade of August and fruiting was noted in the first decade of September. Biometric indicators of the plant during the generative phase were revealed as follows: plant height 2.95 ± 0.22 m, generative shoot length 2.62 ± 0.24 m, number of leaves 46.5 ± 3.59 pcs., leaf length 10.11 ± 0.49 cm, root length 19.85 ± 0.88 cm, number of flowers 42.8 ± 2.37 pcs., flower diameter 4.82 ± 0.28 cm. Potential seed productivity (PSP) of the plant was noted 13.5 ± 0.5 pcs., real seed productivity (RSP) was 10.8 ± 0.44 pcs. And in turn, the seed productivity coefficient (SPC) amounted to 80.0% ± 1.31%. The primary results prove, according to the success of Ipomoea nil introduction, the noted indicators in Tashkent conditions. 展开更多
关键词 Ipomoea nil Tashkent botanical garden Phenology Vegetation Flowering Fruiting Correlation
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Plant Conservation in National Botanical Gardens of South Africa
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作者 Judith L. Arnolds Danni Guo 《Journal of Geoscience and Environment Protection》 2024年第11期145-162,共18页
The destruction of forests has led to plant diversity and species being lost at an unprecedented rate and a decrease in ecosystem services. Plant conservation strategies are important to support the development of liv... The destruction of forests has led to plant diversity and species being lost at an unprecedented rate and a decrease in ecosystem services. Plant conservation strategies are important to support the development of livelihoods based on the sustainable uses of plants and promote the understanding and sharing of the benefits and functions of plants. Botanical gardens allocate most of their resources to plant conservation and the development of educational activities such as making plant species diversity known to the public. These gardens can also play an essential role in human well-being and provide in human needs. In this article, we review the history of the development of Kirstenbosch National Botanical Garden and the development of other national botanical gardens in South Africa. We will discuss conservation through cultivation, discovering and documenting diversity of plants, indigenous plants, threatened plants, medicinal plants, extinctions and rediscoveries, environmental education, conservation science, citizen science, horticulture, research and creating a haven for biodiversity. Future challenges and responsibilities of botanical gardens will be discussed including in situ and ex situ cultivation, promoting awareness, creating partnerships, increasing capacity building and training activities, sharing information and making gardens sustainable. 展开更多
关键词 botanical gardens South Africa Kirstenbosch Plant Conservation Plant Protection Traditional Herb Climate Change
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The Evolving Role of Botanical Gardens and Natural Areas:A Floristic Case Study from Royal Botanical Gardens,Canada 被引量:1
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作者 David A.GALBRAITH Natalie E.IWANYCKI +4 位作者 Brechann V.McGOEY Jamie McGREGOR James S.PRINGLE Carl J.ROTHFELS Tyler W.SMITH 《植物分类与资源学报》 CAS CSCD 北大核心 2011年第1期123-131,共9页
As leaders calling for the conservation of the world's plants,botanical gardens protect plants within living collections.Many also study,manage and restore plants in natural habitats.Royal Botanical Gardens(Ontari... As leaders calling for the conservation of the world's plants,botanical gardens protect plants within living collections.Many also study,manage and restore plants in natural habitats.Royal Botanical Gardens(Ontario,Canada) has integrated both horticultural and natural heritage in its mission for decades.Envisioned by municipal leaders in the 1920s as a combination of nature sanctuaries and civic gardens,RBG now includes forests,wetlands and other habitats,gardens and built spaces.Today RBG is Canada's largest botanical garden on the basis of area.In the 1950s RBG began to inventory plant diversity.The checklist of spontaneous vascular plants now exceeds 1 170 species,of which 752 are native.This is 37% of Ontario's native vascular plants and 19% of the native vascular flora of Canada.The RBG nature sanctuaries are among the richest locations in Canada for species-level diversity.We examine the history of floristic exploration within RBG and compare plant species-area relationships among protected natural areas in Ontario.This comparison supports the contention that the nature sanctuaries,and in particular Cootes Paradise,could be considered an important area for plants in Canada,and relative to the nation's flora,a biodiversity hotspot.The fact that a candidate vascular plant hotspot for Canada lies within a major botanical garden presents opportunities for raising public awareness of the importance of plant diversity,as well as focusing attention on the scientific and conservation biology needs of communities and individual species in this area. 展开更多
关键词 botanical garden ONTARIO Natural areas BIODIVERSITY Species-area curve Species richness
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Adapting the botanical landscape of Melbourne Gardens(Royal Botanic Gardens Victoria)in response to climate change 被引量:2
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作者 Timothy J.Entwisle Chris Cole Peter Symes 《Plant Diversity》 SCIE CAS CSCD 北大核心 2017年第6期338-347,共10页
Botanic gardens around the world maintain collections of living plants for science, conservation, education, beauty and more. These collections change over time-in scope and content-but the predicted impacts of climat... Botanic gardens around the world maintain collections of living plants for science, conservation, education, beauty and more. These collections change over time-in scope and content-but the predicted impacts of climate change will require a more strategic approach to the succession of plant species and their landscapes. Royal Botanic Gardens Victoria has recently published a 'Landscape Succession Strategy'for its Melbourne Gardens, a spectacular botanical landscape established in 1846. The strategy recognizes that with 1.6 million visitors each year, responsibility for a heritage-listed landscape and the need to care for a collection of 8500 plant species of conservation and scientific importance, planting and planning must take into account anticipated changes to rainfall and temperature. The trees we plant today must be suitable for the climate of the twenty-second century. Specifically, the Strategy sets out the steps needed over the next twenty years to transition the botanic garden to one resilient to the climate modelled for2090. The document includes a range of practical measures and achievable(and at times somewhat aspirational) targets. Climate analogues will be used to identify places in Australia and elsewhere with conditions today similar to those predicted for Melbourne in 2090, to help select new species for the collection. Modelling of the natural and cultivated distribution of species will be used to help select suitable growth forms to replace existing species of high value or interest. Improved understanding of temperature gradients within the botanic garden, water holding capacity of soils and plant water use behaviour is already resulting in better targeted planting and irrigation. The goal is to retain a similar diversity of species but transition the collection so that by 2036 at least 75% of the species are suitable for the climate in 2090. Over the next few years we hope to provide 100% of irrigation water from sustainable water sources, and infrastructure will be improved to adapt to predicted higher temperatures and more climatic extremes. At all times there will be a strong focus on assisting the broader community in their response to climate change. 展开更多
关键词 Climate change Landscape succession Botanic garden Uving collection
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Botanic gardens should lead the way to create a "Garden Earth" in the Anthropocene 被引量:4
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作者 Charles H.Cannon Chai-Shian Kua 《Plant Diversity》 SCIE CAS CSCD 北大核心 2017年第6期331-337,共7页
The strength and expertise that botanic gardens bring to conservation are based on their detailed knowledge and understanding of the care. management, and biology of a diversity of plant species. This emphasis on the ... The strength and expertise that botanic gardens bring to conservation are based on their detailed knowledge and understanding of the care. management, and biology of a diversity of plant species. This emphasis on the organism has led to many ex-situ and in-situ conservation programs aimed at protecting endangered species, restoring threatened populations, and establishing living plant and seed collections of endangered species. In China, the scale and pace of change in land and resource use, often leading to environmental degradation, has created a strong emphasis on improving environmental conditions. If done properly, being "green" can be a surprisingly complex issue, because it should encompass and exploit the whole of plant diversity and function. Unfortunately, 'green' often includes a small portion of this whole. Earth's rich plant diversity presents considerable opportunity but requires expertise and knowledge for stable and beneficial management. With the dawning of the Anthropocene, we should strive to live on a "Garden Earth", where we design and manage our environments, both built and natural, to create a healthy, beneficial living landscape for people and other organisms. The staff of botanic gardens worldwide and the living collections they maintain embody the best examples of sustainable, beautiful, and beneficial environments that thrive on plant diversity. This expertise should be a fundamental resource for agencies in all sectors responsible for managing and designing "green" infrastructure. Botanic gardens should actively engage and contribute to these opportunities, from large public infrastructure projects to small private conservation efforts. Here, we discuss several ongoing conservation efforts, primarily in China, and attempt to identify areas where botanic gardens could make a significant and meaningful difference. 展开更多
关键词 Green infrastructure Botanic garden Ex-situ conservationln-situ conservation botanical garden
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The contribution of botanic gardens to ex situ conservation through seed banking 被引量:5
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作者 Katherine O'Donnell Suzanne Sharrock 《Plant Diversity》 SCIE CAS CSCD 北大核心 2017年第6期373-378,共6页
Target 8 of the Global Strategy for Plant Conservation calls for 'at least 75 per cent of threatened plant species in ex situ collections, preferably in the country of origin, and at least 20 per cent available fo... Target 8 of the Global Strategy for Plant Conservation calls for 'at least 75 per cent of threatened plant species in ex situ collections, preferably in the country of origin, and at least 20 per cent available for recovery and restoration programmes by 2020'.Botanic gardens make a significant contribution to ex situ conservation of wild species with more than a third of plant species represented in botanic gardens collections. These collections are a combination of living collection and seed banked material. Seed banking can provide an efficient form of conservation for wild plant genetic diversity.Information from Botanic Gardens Conservation International's(BGCI) databases(GardenSearch,PlantSearch, ThreatSearch and GlobalTreeSearch) has been analysed as well as survey data to report on global, regional and national seed banking trends.Information from BGCI's databases indicates that there are at least 350 seed banking botanic gardens in 74 countries. In total 56,987 taxa have been banked including more than 9000 taxa that are threatened with extinction. 6881 tree species are stored in ex situ seed bank collections. More than half(3562) of these tree species are single country endemics and represent species from more than 166 countries.This study suggests that institutions are increasingly conserving plant species via seed banking.However the majority of species in collections that have a conservation assessment are not threatened with extinction. This disjunction between species that are threatened and those conserved in seed banks needs to be addressed. Data from BGCI's databases can be used to enable prioritisation of threatened plant species for collection and conservation in seed banks. Further recommendations for botanic gardens involved in seed conservation are presented. 展开更多
关键词 Seed banking GSPC ex situ conservation Conservation assessments Botanic gardens
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