Thematische Bibliographien / Plant conservation

Auswahl der wissenschaftlichen Literatur zum Thema „Plant conservation“

Autor: Grafiati
Veröffentlicht am 4. Juni 2021
Zuletzt aktualisiert am 1. August 2024

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Zeitschriftenartikel zum Thema "Plant conservation"

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ARNOLD, M. H., D. ASTLEY, E. A. BELL, J. K. A. BLEASDALE, A. H. BUNTING, J. BURLEY, J. A. CALLOW et al. „Plant gene conservation“. Nature 319, Nr. 6055 (Februar 1986): 615. http://dx.doi.org/10.1038/319615a0.

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Towill, Leigh. „Plant conservation biotechnology“. In Vitro Cellular & Developmental Biology - Plant 37, Nr. 1 (Januar 2001): 89. http://dx.doi.org/10.1007/s11627-001-0017-y.

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Raven, Peter, und Kayri Havens. „Ex Situ Plant Conservation and Cryopreservation: Breakthroughs in Tropical Plant Conservation“. International Journal of Plant Sciences 175, Nr. 1 (Januar 2014): 1–2. http://dx.doi.org/10.1086/674030.

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Wiryani, Erry, Sutrisno Anggoro und Sri Mulyani. „Identification of water conservative tree species with high economic value around “Sendang Kalimah Toyyibah”“. Bioma : Berkala Ilmiah Biologi 19, Nr. 2 (15.07.2017): 104. http://dx.doi.org/10.14710/bioma.19.2.104-118.

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Spring conservation require serious concern on the economic advantages for the society. Without economic advantages achieved from the conservation activities, the conservation programme should face intense conflict of land utilization. Plantation of economically valuable conservative plant species is one of the proposed solution to overcome the problem. This research aimed to identify the economic value of conservative plant species found in “Sendang Kalimah Toyyibah” surrounding. Research was conducted through field observation involving 4 line transects and 4 square transects at each line with transect size of 20 m x 20 m. Plant identification was conducted for tree strata. Data analysis was including diversity, evenness and importance index of respective plants. Economic valuation was conducted through literature study. The result showed there were 28 plants species availabile in “Sendang Kalimah Toyyibah” surrounding. Among the plant species 22 of the had been identified to provide conservative function, while 6 of them weren’t including Banana, Papaya, Melinjo, Pangi, Longan and Stink Bean. Instead of providing conservative function, most plants also provide economic advantages including wood, fruit, flower, bud, leaf, fibre, sugar, peel and bean products while only 3 of them were not identified including Banyan, Manila Tamarind and Amboyna Wood. Plantation of economically valuable conservative plant species is recommended to support the conservation of the spring as well as to provide economic advantage for the society. Keywords: conservation, economic, plant, “Sendang Kalimah Toyyibah”, spring
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Auld, Tony D., Heidi C. Zimmer und Lucy E. Commander. „Plant conservation and fire“. Australasian Plant Conservation: journal of the Australian Network for Plant Conservation 28, Nr. 4 (Mai 2020): 3–5. http://dx.doi.org/10.5962/p.373825.

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Auld, Tony D., und David A. Keith. „Plant conservation in Australia“. Australasian Plant Conservation: journal of the Australian Network for Plant Conservation 30, Nr. 4 (Mai 2022): 3–6. http://dx.doi.org/10.5962/p.373905.

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Edwards, Christine E. „Strengthening the Link between International Conservation Policy and Plant Conservation Genetics to Achieve More Effective Plant Conservation“. Annals of the Missouri Botanical Garden 102, Nr. 2 (11.08.2017): 397–407. http://dx.doi.org/10.3417/d-16-00015a.

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Balding, Mung, und Kathryn J. H. Williams. „Plant blindness and the implications for plant conservation“. Conservation Biology 30, Nr. 6 (19.07.2016): 1192–99. http://dx.doi.org/10.1111/cobi.12738.

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Masitoh, F., D. Taryana, A. A. Wijaya, S. A. Arysandi und A. N. Rusydi. „Promoting Bamboo as Water Resources Conservation Plant in Jedong Community“. IOP Conference Series: Earth and Environmental Science 1039, Nr. 1 (01.09.2022): 012059. http://dx.doi.org/10.1088/1755-1315/1039/1/012059.

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Abstract Bamboo has been widely used for water resource conservation. The benefits of bamboo as a water resource conservation plant are not well known by the public. This paper discussed the process of promoting bamboo as a conservation plant for the people of Jedong, Wagir Subdistrict, Malang Regency. They used water from Sumber-Wangkal and Sumber-Cokro Springs to fullfil their water needs. The methods applied in this research are soil surveying and causal loop diagrams model. The soil surveying and causal loop diagrams model were done to get the spring’s soil conditions and to find out the water resources conservations efforts by Jedong people in both springs, respectively. The soil samples analysis showed that the soil in both areas is suitable for bamboo plants. The causal loop diagrams (Jedong Water Resources Conservation) model showed that the village-owned water management (Pengelola Air Minum Desa/PAMDes), as the organizational system on water reseources management will be able to promote the bamboo plants for conservation. Promoting bamboo plants to the Jedong community is very important to support the water resources sustainability in Jedong.
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Nachlinger, Janet L. „Rare Plant Conservation and Management“. Ecology 70, Nr. 1 (Februar 1989): 288. http://dx.doi.org/10.2307/1938440.

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Dissertationen zum Thema "Plant conservation"

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Dalrymple, Sarah. „Rarity and conservation of Melampyrum sylvaticum“. Thesis, University of Aberdeen, 2006. http://digitool.abdn.ac.uk:80/webclient/DeliveryManager?pid=128181.

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Melampyrum sylvaticum (small cow-wheat) is a hemiparasitic annual of boreal-montane regions of Europe.  The Species Action Plan recommended that in addition to protecting extant populations, by 2010 there should be an additional five populations that have been created with the aim of enhancing greater genetic diversity of the species.  Consequently this project was set up in order to provide the ecological knowledge required to meet such targets. There are various management options available to conservationists looking to prevent Melampyrum sylvaticum’s extinction from the UK but from the results of this project it is clear that some methods have drawbacks that should preclude their use.  Population augmentation with seeds from other populations is not advised due to the risk of genetic ‘swamping’ or outbreeding depression.  Seed amplification would avoid these problems but may introduce different complications by artificially promoting certain genotypes within a population. Population expansion by mimicking ant dispersal is recommended as a way of minimizing density dependent mortality in larger populations but is not suitable in smaller populations. Seed translocation to unoccupied sites is therefore, the best option but the exact details of seed-sourcing and sowing should be guided by the results of the Species Recovery Project in order to avoid predicted limitations. The long-term outlook for M. sylvaticum will depend entirely on whether populations can be created that operate as part of a functioning ecosystem (including pollinating and seed-dispersing insects) with enough demographic and genetic stability to survive predicted climate change.
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Scobie, Andrew Rutherford. „Understanding the causes of reproductive failure in two rare Scottish plants, Linnaea borealis L. and Spiranthes romanzoffiana Cham. and the implications for future conservation management“. Thesis, Available from the University of Aberdeen Library and Historic Collections Digital Resources. Restricted: no access until Dec. 21, 2011, 2009. http://digitool.abdn.ac.uk:80/webclient/DeliveryManager?application=DIGITOOL-3&owner=resourcediscovery&custom_att_2=simple_viewer&pid=59437.

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Baena, Susana. „Remotely sensed solutions for plant diversity conservation“. Thesis, University of Nottingham, 2018. http://eprints.nottingham.ac.uk/51765/.

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Global change is happening at a staggering pace and the impact that change is having in the loss of plant biodiversity is unprecedented. The latest reports on the state of the world’s plants indicate that they face intensifying threats and biodiversity loss on a global scale. However, this rapid global change is also bringing extraordinary technological developments to all scientific fields. Earth Observation by Remote Sensing is undergoing a fast expansion and its capacity to monitor and analyse global environmental changes and their impact in biodiversity is ever growing. This research analyses the current and potential role of Earth Observation in the conservation of plant diversity, identifying the latest technological developments with the greatest potential use in this field. Looking into a plant conservation organisation and through a series of case studies covering a range of spatial and temporal scales, this research brings the latest Remote Sensing technology to the plant conservation community. From collecting and processing very high resolution data for local conservation projects to help determine conservation status of a country’s unique ecosystem to tracking and reporting on global plant conservation targets this research demonstrates that Remote Sensing is instrumental for addressing the observation needs of the plant conservation community.
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Orozco, Barbara Ayala. „Maintaining the drivers of tropical plant diversity : plant disease in conservation practice /“. Diss., Digital Dissertations Database. Restricted to UC campuses, 2008. http://uclibs.org/PID/11984.

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Wong, Kwong-chiu Alfred. „Conservation genetics of Hong Kong wild orchids /“. Hong Kong : University of Hong Kong, 1998. http://sunzi.lib.hku.hk/hkuto/record.jsp?B2035793X.

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Ng, Sai-chit. „Hong Kong's rhododendrons : ecology, population genetics and conservation /“. Hong Kong : University of Hong Kong, 1999. http://sunzi.lib.hku.hk/hkuto/record.jsp?B21482743.

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Cheung, W. T. „The conservation of plants in Hong Kong /“. View the Table of Contents & Abstract, 2005. http://sunzi.lib.hku.hk/hkuto/record/B3473742X.

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Swarts, Nigel. „Integrated conservation of the rare and endangered terrestrial orchid Caladenia huegelii H.G. Reichb /“. Connect to this title, 2007. http://theses.library.uwa.edu.au/adt-WU2008.0044.

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Vorster, Liesl. „Current status and impact (2004-2015) of indigenous ungulate herbivory on the vegetation of Sanbona Wildlife Reserve in the Little Karoo“. Master's thesis, University of Cape Town, 2017. http://hdl.handle.net/11427/25523.

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Game farming is becoming more popular in southern Africa and the introduction of large indigenous ungulates into confined enclosed areas could alter plant communities and ecosystem processes. This is of particular concern in semi-arid rangelands of the Succulent Karoo where the evolutionary history of grazing is not clear and the compatibility of large herbivores in confined areas remains to be demonstrated. The establishment of Sanbona Wildlife Reserve, a 54 000 hectare private game reserve in the Little Karoo, which converted from livestock farming to game farming, allows an opportunity to study the vegetation dynamics in a confined plant-herbivore system. This study investigates the current community structure and the changes in the floral composition and vegetation structure of enclosed and comparable sites subjected to grazing by large herbivores after twelve years (2004-2015). It also determines the relative effect of grazing and rainfall on the observed patterns. Finally, the implications of these findings for management are discussed. Data from drop-point surveys in fenced (exclosure) and unfenced (grazed) plots in the dominant vegetation types as well as annual and seasonal rainfall totals, stocking rates of herbivores and annual game census information, were analysed. These were used in multivariate ordination techniques, regressions and linear mixed-effects models to determine the communities and their relationship with herbivory and rainfall over time and identify a set of indicator species. The annual game census information was used to determine areas of herbivore preference or 'hotspots' and for the identification of highly-utilised areas. Cluster analysis, using the flexible beta method in PC-Ord, was used to determine the current plant communities. Non-metric multidimensional scaling ordination (NMS) was used to determine the relationship of these communities with the environmental variables and illustrate the trajectories in floristic data. Species were also assigned to plant growth forms and examined as communities and growth form types. The Bray-Curtis distance measures were used to investigate the difference between each treatment over time, within each vegetation community and between treatments. Finally, the effects of rainfall and herbivory were examined using linear mixed-effects models of change over time vs the various potential determinants of change using lmer functions in R. Four communities were identified. These communities corresponded well with to the vegetation type descriptions for Western Little Karoo, Little Karoo Quartz Vygieveld and Renosterveld as described in the National Vegetation Map of Mucina and Rutherford (2006). However, the Western Little Karoo was too broad and two communities were recognised within this vegetation type. The finer scale mapping by Vlok et al. (2005) corresponded relatively well to these communities. Results showed an increase in species richness, abundance and cover over time, with the ungrazed plots experiencing more change than the plots exposed to grazing. Most growth forms exhibited an increase in cover, although low leaf succulents declined in both grazed and ungrazed plots. Medium evergreen shrubs declined in the exclosures and stem succulents declined in the grazed plots. The effects were found in both grazed and ungrazed treatments. In addition, many species which declined in abundance were unpalatable or toxic to herbivores. Because of this, the decline in cover of such species was not attributed to grazing, but was instead interpreted as being a response to other disturbance mechanisms, to competitive displacement and to rainfall events. The low stocking rates in the first five years of the study resulted in there being very little difference evident between the treatments. However, once stocking rates increased from 2008, both species richness and cover increased more rapidly in the ungrazed plots, compared to the grazed plots. An increase in palatable and unpalatable species was observed within both ungrazed and grazed plots indicating that grazing did not change the proportion of palatability classes. However, specific plots in the areas of high animal utilisation were more affected as indicated by the response of cover, species richness and palatable species in these specific plots. This suggests that the grazing pressure may be too high within those areas. The linear mixed-effect model supports the argument that grazing pressure is the dominant driver of the community change within grazed plots. Similarly, the results show that rainfall is the primary driver of the vegetation community in the absence of grazing. Timing, amount and intensity of rainfall can mask these impacts. Thus, the contribution of grazing to vegetation change can probably only be detected by tracking the trends over decades or longer. The use of indicators as a management tool is well documented. In order to identify indicators, a theoretical framework for determining indicators species in the different vegetation communities was created. This was based on the correlation between species abundance and sampling period in the different treatments, which identified species that have significantly increased or decreased over time as a result of the change in land use. Species identified as potential indicators were selected on the basis based on their abundance and ranged in lifespans and palatability. The indicators chosen need to be monitored into the future to confirm their utility as indicators. A small but significant difference between grazed and ungrazed plots suggest that herbivore impact is apparent. Identifying this trend indicates that the monitoring programme is providing a useful tool for assessing the impact of herbivores on an ongoing basis. The recovery process following the withdrawal of domestic livestock from Sanbona was much slower in the grazed plots than in the protected plots. Therefore, for the continued recovery of the vegetation to occur and for there to be a sustained increase in cover, active management of animal numbers needs to take place. The results from this study can contribute to future management decisions on the reserve and form a basis for future analyses.
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Ong, Laura E. „Conservation of pathogen recognition mechanisms in different plant species“. [Bloomington, Ind.] : Indiana University, 2006. http://gateway.proquest.com/openurl?url_ver=Z39.88-2004&rft_val_fmt=info:ofi/fmt:kev:mtx:dissertation&res_dat=xri:pqdiss&rft_dat=xri:pqdiss:3215189.

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Thesis (Ph.D.)--Indiana University, Dept. of Biology, 2006.
Source: Dissertation Abstracts International, Volume: 67-04, Section: B, page: 1764. Adviser: Roger W. Innes. "Title from dissertation home page (viewed June 20, 2007)."
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Bücher zum Thema "Plant conservation"

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David, Ehrenfeld, Hrsg. Plant conservation. [Madison, WI]: Society for Conservation Biology, 1995.

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Patrick, Hamilton, Hrsg. Plant conservation. London: Earthscan, 2005.

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Maxted, N., B. V. Ford-Lloyd und J. G. Hawkes, Hrsg. Plant Genetic Conservation. Dordrecht: Springer Netherlands, 1997. http://dx.doi.org/10.1007/978-94-009-1437-7.

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J, Henry Robert, Hrsg. Plant conservation genetics. New York: Food Products Press, 2006.

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Benson, Erica. Plant Conservation Biotechnology. London: Taylor & Francis Group Plc, 2004.

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E, Benson Erica, Hrsg. Plant conservation biotechnology. London: Taylor & Francis, 1999.

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P, Adams Robert, Adams Janice E und DNA Bank-Net Meeting, Hrsg. Conservation of plant genes III: Conservation and utilization of African plants. St. Louis, Mo: Missouri Botanical Garden Press, 1998.

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Hawksworth, David L., und Alan T. Bull, Hrsg. Plant Conservation and Biodiversity. Dordrecht: Springer Netherlands, 2007. http://dx.doi.org/10.1007/978-1-4020-6444-9.

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T, Bull Alan, und SpringerLink (Online service), Hrsg. Plant Conservation and Biodiversity. Dordrecht: Springer Science+Business Media B.V., 2007.

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Kew, Royal Botanic Gardens, und World Conservation Monitoring Centre. Threatened Plants Unit., Hrsg. World plant conservation bibliography. [Kew, England]: The Gardens, 1990.

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Buchteile zum Thema "Plant conservation"

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Walker, Timothy, Stephen A. Harris und Kingsley W. Dixon. „Plant conservation“. In Key Topics in Conservation Biology 2, 313–26. Oxford: John Wiley & Sons, 2013. http://dx.doi.org/10.1002/9781118520178.ch17.

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Wickens, Gerald E. „Plant Conservation“. In Economic Botany, 57–64. Dordrecht: Springer Netherlands, 2001. http://dx.doi.org/10.1007/978-94-010-0969-0_4.

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Lawrence, M. J., und D. F. Marshall. „Plant population genetics“. In Plant Genetic Conservation, 99–113. Dordrecht: Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-009-1437-7_6.

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Gillman, M. „Plant population ecology“. In Plant Genetic Conservation, 114–31. Dordrecht: Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-009-1437-7_7.

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Maxted, N., B. V. Ford-Lloyd und J. G. Hawkes. „Complementary conservation strategies“. In Plant Genetic Conservation, 15–39. Dordrecht: Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-009-1437-7_2.

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Ashton, Peter S. „Species Richness in Plant Communities“. In Conservation Biology, 3–22. Boston, MA: Springer US, 1992. http://dx.doi.org/10.1007/978-1-4684-6426-9_1.

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Priyadarshan, P. M. „Germplasm Conservation“. In PLANT BREEDING: Classical to Modern, 49–73. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-7095-3_3.

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Prance, G. T. „The conservation of botanical diversity“. In Plant Genetic Conservation, 3–14. Dordrecht: Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-009-1437-7_1.

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Qualset, C. O., A. B. Damania, A. C. A. Zanatta und S. B. Brush. „Locally based crop plant conservation“. In Plant Genetic Conservation, 160–75. Dordrecht: Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-009-1437-7_10.

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Ford-Lloyd, B. V., und N. Maxted. „Genetic conservation information management“. In Plant Genetic Conservation, 176–91. Dordrecht: Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-009-1437-7_11.

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Konferenzberichte zum Thema "Plant conservation"

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Yusuf, Muhammad, und Endang Arisoesilaningsih. „Exotic plant species attack revegetation plants in post-coal mining areas“. In 8TH INTERNATIONAL CONFERENCE ON GLOBAL RESOURCE CONSERVATION (ICGRC 2017): Green Campus Movement for Global Conservation. Author(s), 2017. http://dx.doi.org/10.1063/1.5012716.

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Dhyani, Anurag, und Thomas Abeli. „Plant Translocation for Threatened Species Conservation“. In Stand Alone Papers 2022. Basel Switzerland: MDPI, 2022. http://dx.doi.org/10.3390/proceedings2022080001.

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Volkova, Liudmila, und Nikolay Sobolev. „Multispecies wild plant lawns in Moscow legislation“. In 5th European Congress of Conservation Biology. Jyväskylä: Jyvaskyla University Open Science Centre, 2018. http://dx.doi.org/10.17011/conference/eccb2018/108157.

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Suberliak, Sofia. „Method of tissue culture for biodiversity conservation of medical plants of Carpatians“. In ASPB PLANT BIOLOGY 2020. USA: ASPB, 2020. http://dx.doi.org/10.46678/pb.20.1048274.

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Kukk, V., und K. Annamaa. „CONSERVATION OF PLANT GENETIC RESOURCES IN ESTONIA“. In International Conference “125 Years of Applied Botany in Russia” St. Petersburg, Russia. Federal Research Center the N.I. Vavilov All-Russian Institute of Plant Genetic Resources, 2019. http://dx.doi.org/10.30901/978-5-907145-39-9-87.

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Pénzesné Kónya, Erika, und Philippe Bardin. „More networking, more local success in plant conservation“. In 5th European Congress of Conservation Biology. Jyväskylä: Jyvaskyla University Open Science Centre, 2018. http://dx.doi.org/10.17011/conference/eccb2018/107460.

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Leitão, Pedro J., Marcel Schwieder, Fernando Pedroni, Maryland Sanchez, José R. Pinto, Leandro Maracahipes, Mercedes Bustamante, Patrick Hostert und Boris Schröder. „Mapping Cerrado woody plant traits with spaceborne hyperspectral data“. In 5th European Congress of Conservation Biology. Jyväskylä: Jyvaskyla University Open Science Centre, 2018. http://dx.doi.org/10.17011/conference/eccb2018/108029.

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Fungomeli, Maria, Fabrizio Frascaroli, Marcus Cianciaruso, Chiara Lelli und Alessandro Chiarucci. „Plant Species Diversity of Kenyan Coastal forests: Gaps of knowledge“. In 5th European Congress of Conservation Biology. Jyväskylä: Jyvaskyla University Open Science Centre, 2018. http://dx.doi.org/10.17011/conference/eccb2018/109186.

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„Micropropagation of Threatened Betula Species for in vitro Conservation“. In International Conference on Plant, Marine and Environmental Sciences. International Institute of Chemical, Biological & Environmental Engineering, 2015. http://dx.doi.org/10.15242/iicbe.c0115056.

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Kholodnyak, Oleksandr, und Svitlana Pavlova. „THE CONSERVATION AND MANAGEMENT OF PLANT GENETIC RESOURCES“. In THEORETICAL AND PRACTICAL ASPECTS OF MODERN SCIENTIFIC RESEARCH. European Scientific Platform, 2021. http://dx.doi.org/10.36074/logos-30.04.2021.v1.38.

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Berichte der Organisationen zum Thema "Plant conservation"

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Wright, Kirsten. Collecting Plant Phenology Data In Imperiled Oregon White Oak Ecosystems: Analysis and Recommendations for Metro. Portland State University, März 2020. http://dx.doi.org/10.15760/mem.64.

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Highly imperiled Oregon white oak ecosystems are a regional conservation priority of numerous organizations, including Oregon Metro, a regional government serving over one million people in the Portland area. Previously dominant systems in the Pacific Northwest, upland prairie and oak woodlands are now experiencing significant threat, with only 2% remaining in the Willamette Valley in small fragments (Hulse et al. 2002). These fragments are of high conservation value because of the rich biodiversity they support, including rare and endemic species, such as Delphinium leucophaeum (Oregon Department of Agriculture, 2020). Since 2010, Metro scientists and volunteers have collected phenology data on approximately 140 species of forbs and graminoids in regional oak prairie and woodlands. Phenology is the study of life-stage events in plants and animals, such as budbreak and senescence in flowering plants, and widely acknowledged as a sensitive indicator of environmental change (Parmesan 2007). Indeed, shifts in plant phenology have been observed over the last few decades as a result of climate change (Parmesan 2006). In oak systems, these changes have profound implications for plant community composition and diversity, as well as trophic interactions and general ecosystem function (Willis 2008). While the original intent of Metro’s phenology data-collection was to track long-term phenology trends, limitations in data collection methods have made such analysis difficult. Rather, these data are currently used to inform seasonal management decisions on Metro properties, such as when to collect seed for propagation and when to spray herbicide to control invasive species. Metro is now interested in fine-tuning their data-collection methods to better capture long-term phenology trends to guide future conservation strategies. Addressing the regional and global conservation issues of our time will require unprecedented collaboration. Phenology data collected on Metro properties is not only an important asset for Metro’s conservation plan, but holds potential to support broader research on a larger scale. As a leader in urban conservation, Metro is poised to make a meaningful scientific contribution by sharing phenology data with regional and national organizations. Data-sharing will benefit the common goal of conservation and create avenues for collaboration with other scientists and conservation practitioners (Rosemartin 2013). In order to support Metro’s ongoing conservation efforts in Oregon white oak systems, I have implemented a three-part master’s project. Part one of the project examines Metro’s previously collected phenology data, providing descriptive statistics and assessing the strengths and weaknesses of the methods by which the data were collected. Part two makes recommendations for improving future phenology data-collection methods, and includes recommendations for datasharing with regional and national organizations. Part three is a collection of scientific vouchers documenting key plant species in varying phases of phenology for Metro’s teaching herbarium. The purpose of these vouchers is to provide a visual tool for Metro staff and volunteers who rely on plant identification to carry out aspects of their job in plant conservation. Each component of this project addresses specific aspects of Metro’s conservation program, from day-to-day management concerns to long-term scientific inquiry.
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EMC ENGINEERS INC DENVER CO. Water Conservation Study, Badger Army Ammunition Plant, Baraboo, Wisconsin. Fort Belvoir, VA: Defense Technical Information Center, Mai 1995. http://dx.doi.org/10.21236/ada330206.

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Cler, Gerald L., Alan T. Chalifoux, Kim Parson und Bruce Higgs. Evaluation of Chiller Plant Energy Conservation Opportunities at Fort Hood, Texas. Fort Belvoir, VA: Defense Technical Information Center, Juni 1997. http://dx.doi.org/10.21236/ada328455.

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Jankovsky-Jones, Mabel, Steven K. Rust und Robert K. Moseley. Riparian reference areas in Idaho: A catalog of plant associations and conservation sites. Ft. Collins, CO: U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, 1999. http://dx.doi.org/10.2737/rmrs-gtr-20.

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Colón, Christina. The Role of Botanical Gardens, Seed Banks, and Arboreta in Biodiversity Conservation (Ukrainian). American Museum of Natural History, 2015. http://dx.doi.org/10.5531/cbc.ncep.0036.

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Botanical research and botanical gardens have had a long history, originating for practicalities such as medicinal uses. This module covers historical and current roles of botanical gardens and other plant collections, including arboreta, seed banks, and herbaria. Many botanical gardens are involved in long-term research (e.g., climate change) and public education. Additionally, botanical gardens and the like are exceedingly important in plant conservation due to both their extensive ex-situ collections and accumulated knowledge.
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Asdal, Åsmund. Seed Longevity and Survival of Seed Borne Diseases After 35 Years Conservation in Permafrost – Report From the 100 Year Storage Experiment. Nordic Genetic Resource Center (NordGen), März 2024. http://dx.doi.org/10.53780/hkqq8789.

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The Nordic Gene Bank (predecessor to today's plant section of The Nordic Genetic Resource Center, NordGen) established the 100 year seed storage experiment in Coal mine no. 3 outside Longyearbyen in 1986. The experiment was established with the aim to monitor the longevity of seeds in this Nordic back-up seed collection that were deposited in the coal mine from 1984 and to gain general knowledge about the longevity of seed stored under permafrost conditions, as well as studying the survival of seed borne plant pathogens. Seed samples have regularly been withdrawn for analysis according to a fixed withdrawal and analyze plan, that will continue until the last samples are analyzed in 2086.
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AFFILIATED ENGINEERS SE INC GAINESVILLE FL. Energy Conservation Investment Program FY 93 Limited Energy Study Milan Army Ammunition Plant Milan, Tennessee. Fort Belvoir, VA: Defense Technical Information Center, November 1994. http://dx.doi.org/10.21236/ada330351.

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Battle, Kerissa. Public Participation in Plant-Pollinator Conservation: Key Assessment Areas That Support Networked Restoration and Monitoring. Portland State University Library, Januar 2000. http://dx.doi.org/10.15760/etd.6112.

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Skaggs, B. E. Resource Conservation and Recovery Act (RCRA) general contingency plan for hazardous waste treatment, storage, and disposal units at the Oak Ridge Y-12 Plant. Office of Scientific and Technical Information (OSTI), November 1993. http://dx.doi.org/10.2172/132695.

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Mash, Deborah C. Drug Development and Conservation in West and Central Africa/Performance of Neurochemical and Radio Receptor Assays of Plant Extracts. Fort Belvoir, VA: Defense Technical Information Center, September 2002. http://dx.doi.org/10.21236/ada409688.

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