Готові списки джерел за темами / Forest biodiversity

Добірка наукової літератури з теми "Forest biodiversity"

Автор: Grafiati
Опубліковано: 4 червня 2021
Оновлено: 1 березня 2023

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Зміст

  1. Статті в журналах
  2. Дисертації
  3. Книги
  4. Частини книг
  5. Тези доповідей конференцій
  6. Звіти організацій

Статті в журналах з теми "Forest biodiversity":

1

Safe'i, Rahmat, Christine Wulandari, and Hari Kaskoyo. "Assessment of Forest Health in Various Forest Types in Lampung Province." Jurnal Sylva Lestari 7, no. 1 (February 17, 2019): 95. http://dx.doi.org/10.23960/jsl1795-109.

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In Lampung Province, awareness of the importance of forest health in achieving sustainable forest management in various types of forests is still low so that forest health problems have not received serious attention so far. This study aims to obtain indicators of forest health assessment and the status of forest health conditions in various types of forests in Lampung Province. This research was carried out in mangrove and community forests in East Lampung District, and protected and conservation forests in Tanggamus District in 2018. The stages of this study consisted of formulating guarantees of forest health indicators, making measuring plots, measuring forest health, processing data, and forest health assessment. The results showed that indicators for assessing the health of forests in mangrove forests are vitality and biodiversity, in community forests are productivity, vitality and site quality, in protected forests are biodiversity, vitality and productivity, and in conservation forests are biodiversity and productivity. The status of health conditions in each cluster of plots in mangrove forest is bad and good, in community forests is good and medium, in protected forests is bad and good, and in conservation forests are bad and good.Keywords: indicator, forest health status, forest types, Lampung Province
2

Gullison, R. E. "Does forest certification conserve biodiversity?" Oryx 37, no. 2 (April 2003): 153–65. http://dx.doi.org/10.1017/s0030605303000346.

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Forest certification provides a means by which producers who meet stringent sustainable forestry standards can identify their products in the marketplace, allowing them to potentially receive greater market access and higher prices for their products. An examination of the ways in which certification may contribute to biodiversity conservation leads to the following conclusions: 1) the process of Forest Stewardship Council (FSC)-certification generates improvements to management with respect to the value of managed forests for biodiversity. 2) Current incentives are not sufficient to attract the majority of producers to seek certification, particularly in tropical countries where the costs of improving management to meet FSC guidelines are significantly greater than any market benefits they may receive; available incentives are even less capable of convincing forest owners to retain forest cover and produce certified timber on a sustainable basis, rather than deforesting their lands for timber and agriculture. 3) At present, current volumes of certified forest products are insufficient to reduce demand to log high conservation value forests. If FSC certification is to make greater inroads, particularly in tropical countries, significant investments will be needed both to increase the benefits and reduce the costs of certification. Conservation investors will need to carefully consider the biodiversity benefits that will be generated from such investments, versus the benefits generated from investing in more traditional approaches to biodiversity conservation.
3

Hopkins, Brian, T. J. B. Boyle, and B. Boontawee. "Forest Biodiversity Measurement." Biodiversity Letters 3, no. 3 (May 1996): 116. http://dx.doi.org/10.2307/2999727.

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4

Schulze, E. D., L. Bouriaud, H. Bussler, M. Gossner, H. Walentowski, D. Hessenmöller, O. Bouriaud, and K. v. Gadow. "Opinion Paper: Forest management and biodiversity." Web Ecology 14, no. 1 (March 7, 2014): 3–10. http://dx.doi.org/10.5194/we-14-3-2014.

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Abstract. In this opinion paper we investigate the effects of forest management on animal and plant biodiversity by comparing protected areas with intensively and extensively managed forests in Germany and in Romania. We want to know the extent to which differences in diversity of Romanian compared to German forests are based on management. The number of tree species was not different in protected and managed forests ranging between 1.8 and 2.6 species per plot in Germany and 1.3 and 4.0 in Romania. Also herbaceous species were independent of management, ranging between 13 species per plot in protected forests of Romania and 38 species per plot in German coniferous forest. Coarse woody debris was generally low, also in protected forests (14 to 39 m3 ha−1). The main difference between Romania and Germany was the volume of standing dead trees (9 to 28 m3 ha−1 for Romania), which resulted in larger numbers of forest relict saproxylic beetles independent of management. Large predators (wolves, bears and lynxes) are only found in regions with low human intervention. Thus, we identified a "cut and leave" type of management in Romania, in which clear-felling of forest are followed by long periods of no human intervention. Forests managed in the "cut and leave" mode contained the highest diversity, due to a natural succession of plant species and due to habitat continuity for animals. In Germany intensive management eliminates poorly formed tree individual and species of low market value during stand development. Forest protection does not ensure the maintenance of more light demanding key species of earlier stages of succession unless competition by shade-tolerant competitors is reduced through disturbances. We compare the economics of intensive and extensive management. The "cut and leave" mode delivers less wood to the wood market, but saves expenses of tending, thinning and administration. Thus the net income could be quite similar to intensive management at a higher level of biodiversity. Our analysis suggests that forest protection per se does not yet ensure the maintenance of species. Clear-felling followed by natural succession may even be superior to the protection of old growth forests, regarding biodiversity. Further research is needed to substantiate this hypothesis.
5

Recher, HA. "Conserving forest biodiversity: A comprehensive multiscaled approach." Australian Mammalogy 25, no. 1 (2003): 113. http://dx.doi.org/10.1071/am03113_br.

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DAVID Lindenmayer and Jerry Franklin are the two most influential forest conservation biologists of the past decade and will probably remain so for the coming decade. Each has contributed significantly to forest research, management, biodiversity conservation and policy. Lindenmayer is an Australian based at the Australian National University in Canberra who has worked mainly in the temperate eucalypt forests of Victoria and southeastern New South Wales. Most of his research is wildlife oriented, with an emphasis on arboreal marsupials and the impacts of forest management on forest vertebrates. Franklin is an American at the University of Washington, Seattle in the Pacific Northwest. His research is more botanically oriented, with an emphasis on the impacts of forest management on forest structures (e.g., large trees and logs) and processes. Of the two, Franklin has had the greatest involvement in the political, economic and social processes driving the modern change in forestry practices and attitudes. Together they form a formidable team to present a summary and an analysis of how temperate forests globally can and should be managed. Their goal is not just to enhance biodiversity and other ecological values, but to ensure the long-term sustainability of forest ecosystems. Only when forests are managed sustainably to protect biodiversity can forest managers guarantee the many social and economic benefits derived from the world’s forests, including wood production.
6

Tawade, Shailesh, Rinku R. Choudhary, and Vaishnavi Santosh Chavan. "EFFECTS OF FOREST FIRE ON FOREST ECOSYSTEM, BIODIVERSITY AND LOSS OF PLANT AND ANIMAL SPECIES." International Journal of Advanced Research 10, no. 06 (June 30, 2022): 597–600. http://dx.doi.org/10.21474/ijar01/14926.

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Forests fires though considered a natural disaster by many it is a result of combined natural and anthropogenic causes. Loss of habitat due to forest fire is the greatest threat to biodiversity. Frequent forest fires in the forests around the globe have been blamed for forest deterioration. It is true thatfrequent fires on large scales cause air pollution, affect quality of stream water, threaten biodiversity and spoil the aesthetics of an area, but fire plays an important role in forest ecosystem dynamics. In this paper effects of fire on various forest elements, biodiversity and its threat to flora and fauna of a forest area is analyzed and reviewed with the help of existing publications and research papers.
7

Mörtberg, Ulla, Xi-Lillian Pang, Rimgaudas Treinys, Renats Trubins, and Gintautas Mozgeris. "Sustainability Assessment of Intensified Forestry—Forest Bioenergy versus Forest Biodiversity Targeting Forest Birds." Sustainability 13, no. 5 (March 4, 2021): 2789. http://dx.doi.org/10.3390/su13052789.

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Intensified forestry can be seen as a solution to climate change mitigation and securing energy supply, increasing the production of forest bioenergy feedstock as a substitution for fossil fuels. However, it may come with detrimental impacts on forest biodiversity, especially related to older forests. The aim of this study was to assess the sustainability of intensified forestry from climate-energy and biodiversity perspectives, targeting forest bird species. For this purpose, we applied the Landscape simulation and Ecological Assessment (LEcA) tool to the study area of Lithuania, having high ambitions for renewables and high forest biodiversity. With LEcA, we simulated forest growth and management for 100 years with two forest management strategies: Business As Usual (BAU) and Intensive forestry (INT), the latter with the purpose to fulfil renewable energy goals. With both strategies, the biomass yields increased well above the yields of the reference year, while the biodiversity indicators related to forest bird habitat to different degrees show the opposite, with lower levels than for the reference year. Furthermore, Strategy INT resulted in small-to-no benefits in the long run concerning potential biomass harvesting, while substantially affecting the biodiversity indicators negatively. The model results have the potential to inform policy and forest management planning concerning several sustainability goals simultaneously.
8

Bütler, Rita, and Thibault Lachat. "Wälder ohne Bewirtschaftung: eine Chance für die saproxylische Biodiversität | Forests without harvesting: an opportunity for the saproxylic biodiversity." Schweizerische Zeitschrift fur Forstwesen 160, no. 11 (November 1, 2009): 324–33. http://dx.doi.org/10.3188/szf.2009.0324.

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Veteran trees and deadwood are key elements to maintain forest biodiversity. Setting aside protected forest areas and old-growth patches is a recent concept intended to favor deadwood dependent species. We compared forest areas where no harvesting occurred for at least 30 years with regularly managed forests, in order to assess the efficiency of such conservation measures. We collected data from 24 sites in Switzerland, where we inventoried dead trees and habitat structures such as cavities, cracks, bark pockets, etc. In unmanaged forests we found deadwood amounts of 98–143 m3 and 20 snags > 30 cm DBH per hectare, one and half time more large trees (> 60 cm DBH) und twice as many habitat structures as in managed forests. The latter had in average 15–19 m3 of deadwood and 3 snags > 30 cm DBH per hectare. Deadwood amounts in unmanaged forests were similar to the ones in natural forests of central Europe. However, we found 10–50 times less veteran trees (> 80 cm DBH) than in natural forests (1 vs. 0.2 trees per hectare in unmanaged vs. managed forests). For equal diameter classes, trees had more habitat structures in unmanaged than in managed forests. Forest managers plan to intensify wood harvesting in Swiss forests. Consequently, we recommend to urgently set aside protected forest areas and old-growth patches, to maintain and favor habitat trees in managed forests, and to introduce an efficient sustainable deadwood management in any forest.
9

Frey, Ueli. "Waldbiodiversität im Kanton Luzern | Forest biodiversity in the canton Lucerne." Schweizerische Zeitschrift fur Forstwesen 159, no. 7 (July 1, 2008): 185–90. http://dx.doi.org/10.3188/szf.2008.0185.

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The promotion of forest biodiversity in Lucerne is conducted by the office of Landwirtschaft und Wald (Lawa). The biodiversity program 2008–2011 is coordinated with the program agreement “Biodiversität im Wald” between the federal and the cantonal authorities. The canton Lucerne has well-developed planning criteria available which allow a correct prioritization during the promotion and a goal oriented investment of the available financial resources. One difficulty with the application of the biodiversity program is the large portion of private forest owners in the canton Lucerne. The following measures which are eligible for grants and their application are discussed in more detail: old growth, forest edges, forest ponds and forest reserves.
10

Lukac, Martin. "Soil biodiversity and environmental change in European forests." Central European Forestry Journal 63, no. 2-3 (June 27, 2017): 59–65. http://dx.doi.org/10.1515/forj-2017-0010.

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AbstractBiodiversity not only responds to environmental change, but has been shown to be one of the key drivers of ecosystem function and service delivery. Forest soil biodiversity is also governed by these principles, the structure of soil biological communities is clearly determined by spatial, temporal and hierarchical factors. Global environmental change, together with land-use change and forest ecosystem management, impacts the aboveground structure and composition of European forests. Due to the close link between the above- and belowground parts of forest ecosystems, we know that soil biodiversity is also impacted. However, very little is known about the nature of these impacts; effects they have on the overall level of biodiversity, the functions it fulfills, and on the future stability of forests and forest soils. Even though much remains to be learned about the relationships between soil biodiversity and forest ecosystem functionality, it is clear that better effort needs to be made to preserve existing soil biodiversity and forest conservation strategies taking soils into account must be considered.
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Статті в журналах Дисертації Книги

Дисертації з теми "Forest biodiversity":

1

Uliczka, Helen. "Forest biodiversity maintenance : instruments and indicators in the policy implementation /." Uppsala : Dept. of Conservation Biology, Swedish Univ. of Agricultural Sciences, 2003. http://epsilon.slu.se/s291.pdf.

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2

Ingwersen, Sarah. "Biodiversity and forest management, five forest management plans evaluated." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 2001. http://www.collectionscanada.ca/obj/s4/f2/dsk3/ftp04/MQ60848.pdf.

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3

Jucker, Tommaso. "Relating aboveground wood production to tree diversity in forest ecosystems." Thesis, University of Cambridge, 2015. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.709094.

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4

Tacconi, Luca. "The process of forest conservation in Vanuatu : a study in ecological economics /." [Canberra : s.n.], 1995. http://www.library.unsw.edu.au/%7Ethesis/adt-ADFA/public/adt-ADFA20041111.140928/index.html.

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Thesis (Ph. D.)--University of New South Wales.
Photocopy of original held in Defence Academy Library, University College, University of New South Wales. Includes bibliographical references. Also issued online.
5

Kohen, Elvin Carol. "Forest landscape restoration, biodiversity and ecosystem services." Master's thesis, ISA, 2019. http://hdl.handle.net/10400.5/19571.

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Mestrado em Gestão da Floresta e dos Recursos Naturais no Mediterrâneo (MedFor) - Instituto Superior de Agronomia
Deforestation and forest degradation are global challenges that negatively affect forests, ecosystem services and biodiversity. The concept of ‘Forest Landscape Restoration’ has emerged as a contribution to address these challenges and recover forests, restore biodiversity, improve ecosystem services and human well-being, thus contributing to the Sustainable Development Goals. Forest landscape restoration may create opportunities for biodiversity conservation, reduction of erosion, water regulation, and supply of food and wood products. Today, Forest Landscape Restoration projects are applied with a wide variety of approaches. However, there is still a need to assess how this concept is being put into practice by different initiatives. This includes getting information on project locations, project main objectives, methods, implications on biodiversity and ecosystem services, nutritional benefits of trees, and evaluate how the selection of tree species is done. In order to provide a complete picture of forest landscape restoration practices around the world, this research focused on obtaining information from various projects through an online survey aimed at practitioners of forest restoration worldwide. Responses from 47 FLR projects showed that most restoration activities targeted are currently undergoing in the tropics. Increasing vegetation cover and recovering biodiversity were the most common objectives. About 60% of the projects used a mixture of artificial and natural regeneration. According to the responses, in most of the projects (75%), 100% of the planted species were native to the project site. The diversity of planted species was on average of 1 to 3 species per hectare. From the total list of 141 responses, 131 planted tree species were derived, threatened species covered a small proportion of 17%. In general, FLR projects did not plant any edible tree species. It was also found that project managers and local communities are often involved in species selection, in most cases both men and women
N/A
6

Perhans, Karin. "Cost-efficient conservation strategies for boreal forest biodiversity /." Uppsala, Sweden : Swedish University of Agricultural Sciences, 2008. http://diss-epsilon.slu.se/archive/00001772/.

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Thesis (doctoral)--Swedish University of Agricultural Sciences, 2008.
Thesis documentation sheet inserted. Includes appendix of reprints of five papers and manuscripts co-authored with others. Includes bibliographical references. Also partially issued electronically via World Wide Web in PDF format; online version lacks appendix of papers.
7

Pang, Xi. "Modelling trade-offs between forest bioenergy and biodiversity." Licentiate thesis, KTH, Mark- och vattenteknik, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-180333.

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Globally, biodiversity is declining due to loss, fragmentation and degradation of habitat, which undermines ecosystem functioning and therefore threatens also the ability of ecosystems to supply ecosystem services. Moreover, there is a need for adapting to climate change as well as securing the supply of energy, which have led to a shift in energy consumption from fossil fuel to renewables, especially biomass, which in turn put increasing pressure on ecosystems and biodiversity. In Sweden, forest bioenergy has an important role, and high forest biomass production is an important societal objective. Intensified forestry could increase the biomass production through monocultures of native or introduced tree species as well as forest fertilization. However, due to negative effects on natural forest structures and processes, a more intensive forestry could be detrimental to forest biodiversity. The balance between energy demand and the long-term capacity of ecosystems to supply goods and services as well as support biodiversity is therefore crucial. The existing energy models and research have relatively low concerns on land use, landscape and biodiversity, comparing with high enthusiastic on energy economics, climate change and greenhouse gas emission research. Consequently, it would be difficult to provide comprehensive decision support by using only these economy and climate change oriented tools. However, ecological assessment models and multi-criteria approaches exist with great potential for linking with suitable energy models. This will enable the development of more comprehensive decision support tools for assessing future energy scenarios, integrating main policy concerns when assessing renewable energy options. The research was based on a survey on existing energy models and a case study of forest biomass extraction in Kronoberg, a region in southern Sweden. The aim of this project was to develop and test methods for integrated the sustainability assessment of forest biomass extraction for bioenergy purposes by incorporating effects on biodiversity. Forest growth was simulated under two management scenarios: Even-aged-forestry (EAF) and continuous-cover-forestry (CCF), in a time period between 2010-2110. The GIS-based approaches for assessment of biomass impacts on biodiversity involved an ecological network assessment of prioritized ecological profiles across the landscape under the two scenarios.

QC 20160111

8

Ask, Peter. "Biodiversity and deciduous forest in landscape management : studies in southern Sweden /." Alnarp : Swedish University of Agricultural Sciences, 2002. http://diss-epsilon.slu.se/archive/00000107/.

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Thesis (doctoral)--Swedish University of Agricultural Sciences, 2002.
Abstract inserted. Appendix includes reprints of a published paper and three manuscripts, each co-authored with a different author. Includes bibliographical references. Also partially issued electronically via World Wide Web in PDF format; online version lacks appendix.
9

Martin, Thomas Edward. "Avifauna and anthropogenic forest disturbance in two biodiversity hotspots." Thesis, Lancaster University, 2009. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.543999.

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10

Rose, Samuel. "A classification system for mapping tropical rain forest biodiversity." Thesis, University of Leeds, 1996. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.274594.

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Книги з теми "Forest biodiversity":

1

Singh, M. P. Forest environment and biodiversity. Delhi: Daya Pub. House, 1997.

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2

Indian Council of Forestry Research and Education. Forest biodiversity in India. Dehradun: Indian Council of Foerstry Research & Education, 2012.

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3

Piermaria, Corona, Köhl Michael, and Marchetti Marco, eds. Advances in forest inventory for sustainable forest management and biodiversity monitoring. Dordrecht: Kluwer Academic, 2003.

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4

USAID/Cambodia. Cambodia tropical forestry and biodiversity (118/119) assessment. Phnom Penh]: USAID/ Cambodia, 2010.

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5

Pyers, Greg. Biodiversity of temperate forests. New York: Marshall Cavendish Benchmark, 2012.

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6

United States. Forest Service Research. USDA Forest Service biodiversity research directory. [Washington, DC?]: U.S. Dept. of Agriculture, Forest Service Research, 1993.

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7

Gardner, Toby. Monitoring forest biodiversity: Improving conservation through ecologically-responsible management. London: Earthscan, 2010.

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8

Johns, Andrew Grieser. Timber production and biodiversity conservation in tropical rain forests. Cambridge: Cambridge University Press, 1997.

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9

Davies, G. Arabuko Sokoke Forest biodiversity overview. Nairobi: Centre for Biodiversity, National Museums of Kenya, 1993.

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10

Chirici, Gherardo, Susanne Winter, and Ronald E. McRoberts, eds. National Forest Inventories: Contributions to Forest Biodiversity Assessments. Dordrecht: Springer Netherlands, 2011. http://dx.doi.org/10.1007/978-94-007-0482-4.

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Частини книг з теми "Forest biodiversity":

1

Sippola, Anna-Liisa. "Forest Management and Biodiversity." In Social and Environmental Impacts in the North: Methods in Evaluation of Socio-Economic and Environmental Consequences of Mining and Energy Production in the Arctic and Sub-Arctic, 101–16. Dordrecht: Springer Netherlands, 2003. http://dx.doi.org/10.1007/978-94-007-1054-2_8.

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Scorse, Jason. "Forest and Biodiversity Conservation." In What Environmentalists Need to Know About Economics, 101–19. New York: Palgrave Macmillan US, 2010. http://dx.doi.org/10.1057/9780230114043_10.

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3

Foster, Neil W., and Jagtar S. Bhatti. "Ecosystems: Forest Nutrient Cycling." In Terrestrial Ecosystems and Biodiversity, 177–81. Second edition. | Boca Raton: CRC Press, [2020] | Revised edition of: Encyclopedia of natural resources. [2014].: CRC Press, 2020. http://dx.doi.org/10.1201/9780429445651-23.

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4

Ribeiro, Milton Cezar, Alexandre Camargo Martensen, Jean Paul Metzger, Marcelo Tabarelli, Fábio Scarano, and Marie-Josee Fortin. "The Brazilian Atlantic Forest: A Shrinking Biodiversity Hotspot." In Biodiversity Hotspots, 405–34. Berlin, Heidelberg: Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-20992-5_21.

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5

Turner, Ian M. "Singapore: A Case-Study for Tropical Rain Forest Fragmentation and Biodiversity Loss." In Biodiversity, 249–57. New York, NY: Springer New York, 1997. http://dx.doi.org/10.1007/978-1-4612-1906-4_15.

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6

Wani, Afaq Majid, and Gyanaranjan Sahoo. "Forest Ecosystem Services and Biodiversity." In Spatial Modeling in Forest Resources Management, 529–52. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-56542-8_22.

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7

Yarwood, Stephanie A., Elizabeth M. Bach, Matt Busse, Jane E. Smith, Mac A. Callaham, Chih-Han Chang, Taniya Roy Chowdhury, and Steven D. Warren. "Forest and Rangeland Soil Biodiversity." In Forest and Rangeland Soils of the United States Under Changing Conditions, 75–97. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-45216-2_5.

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8

Šijačić-Nikolić, Mirjana, Jelena Milovanović, and Marina Nonić. "Conservation of Forest Genetic Resources." In Sustainable Development and Biodiversity, 103–28. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-09381-9_7.

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9

Corredoira, E., M. T. Martínez, M. C. Sanjosé, and A. Ballester. "Conservation of Hardwood Forest Species." In Sustainable Development and Biodiversity, 421–53. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-66426-2_14.

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Di Cosmo, Lucio, and Antonio Floris. "Biodiversity and Protected Wooded Lands." In Springer Tracts in Civil Engineering, 391–446. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-98678-0_9.

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Анотація:
AbstractThe importance of forests for their functions other than timber and wood production has dramatically increased in the last decades with the increased awareness of the risks deriving from deforestation and the acknowledgment of the great amount of goods and benefits forests provide. Consequently, national forest inventories have widened their objectives and nowadays include variables related to environmental aspects. Among these aspects, biodiversity plays a key role for forest ecosystems’ adaptation to climate change. This chapter details the INFC2015 estimates regarding tree species diversity. It also shows the estimates on the naturalness of the stands’ regeneration processes and those on the presence and type of deadwood in forests. In addition to carbon storage, standing dead trees, stumps and lying deadwood also have a great potential for biodiversity. Forest protection is also pursued through laws and policies that allow for the creation of protected areas of various type and protection degree. The main inventory statistics on wooded lands in protected areas are given in the last section of this chapter.

Тези доповідей конференцій з теми "Forest biodiversity":

1

Doerfler, Inken, Martin M. Gossner, Jörg Müller, Sebastian Seibold, and Wolfgang W. Weisser. "Integrative forest management can promote biodiversity." In 5th European Congress of Conservation Biology. Jyväskylä: Jyvaskyla University Open Science Centre, 2018. http://dx.doi.org/10.17011/conference/eccb2018/107253.

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2

SZYSZKO, JAN. "FOREST POLICIES, CARBON SEQUESTRATION AND BIODIVERSITY PROTECTION." In International Seminar on Nuclear War and Planetary Emergencies 40th Session. WORLD SCIENTIFIC, 2009. http://dx.doi.org/10.1142/9789814289139_0003.

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3

SZYSZKO, JAN. "FOREST POLICIES, CARBON SEQUESTRATION AND BIODIVERSITY PROTECTION." In International Seminar on Nuclear War and Planetary Emergencies 42nd Session. WORLD SCIENTIFIC, 2010. http://dx.doi.org/10.1142/9789814327503_0006.

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4

Aravanopoulos, Filippos A., Nikolaos Tourvas, Ermioni Malliarou, Fani G. Lyrou, Vasiliki-Maria Kotina, and Anna-Maria Farsakoglou. "Forest Genetic Monitoring in a Biodiversity Hotspot." In IECF 2022. Basel Switzerland: MDPI, 2022. http://dx.doi.org/10.3390/iecf2022-13127.

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5

Alia, Zerrouki, Redjaimia Lilia, Kara Karima, and Rached-Kanouni Malika. "ASSESSMENT AND DIAGNOSIS OF POTENTIAL BIODIVERSITY IN THE CHETTABA FOREST (ALGERIA)." In GEOLINKS Conference Proceedings. Saima Consult Ltd, 2021. http://dx.doi.org/10.32008/geolinks2021/b2/v3/02.

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In view of the challenges facing forest management today (global warming, increased demand for wood energy), taking account of biodiversity in forests is an immediate necessity. The aim of this work is to estimate the biodiversity of the Chettaba forest by studying these structural elements which provide indirect information on the state of biological diversity and aims to provide the first elements of an answer for the construction of a potential biodiversity index (PBI). This diagnostic tool is based on the scoring of a set of ten factors, seven of which are dependent on recent forest management and three independent of it. A score from 0 to 5 is assigned to each factor. The results show that the potential forest biodiversity is average in the Chettaba massif. The average or rather low values of the criteria in the investigated forest often depend on climate, soil and human actions.
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gonthier, paolo, massimo faccoli, Matteo Garbelotto, and paolo capretti. "Bioinvasions and their effects on the forest biodiversity." In Secondo Congresso Internazionale di Selvicoltura = Second International Congress of Silviculture. Accademia Italiana di Scienze Forestali, 2015. http://dx.doi.org/10.4129/2cis-pg-inv.

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Gninenko, YU I. "Penetration of new alien organisms into forests - a threat to biodiversity forest communities." In Scientific dialogue: Young scientist. ЦНК МОАН, 2020. http://dx.doi.org/10.18411/spc-22-07-2020-08.

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8

Hagge, Jonas, Nadja Simons, Wolfgang W. Weisser, Simon Thorn, Sebastian Seibold, Axel Gruppe, and Jörg Müller. "Biodiversity and ecosystem services in forest - the ‘BioHolz’ project." In 5th European Congress of Conservation Biology. Jyväskylä: Jyvaskyla University Open Science Centre, 2018. http://dx.doi.org/10.17011/conference/eccb2018/107379.

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Qu, Yanmei, and Guoshuang Tian. "Applying portfolio theory to the valuation of forest biodiversity." In 2011 International Conference on Management Science and Industrial Engineering (MSIE). IEEE, 2011. http://dx.doi.org/10.1109/msie.2011.5707656.

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Zeng, Yuan, Yujin Zhao, Dan Zhao, and Bingfang Wu. "Forest biodiversity mapping using airborne LiDAR and hyperspectral data." In 2016 IEEE International Geoscience and Remote Sensing Symposium (IGARSS). IEEE, 2016. http://dx.doi.org/10.1109/igarss.2016.7729922.

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Звіти організацій з теми "Forest biodiversity":

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Pötzelsberger, Elisabeth, Jürgen Bauhus, Bart Muys, Sven Wunder, Michele Bozzano, Anna-Maria Farsakoglou, Andreas Schuck, Marcus Lindner, and Katharina Lapin. Forest biodiversity in the spotlight – what drives change? European Forest Institute, June 2021. http://dx.doi.org/10.36333/rs2.

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Ottburg, Fabrice, Dennis Lammertsma, Jaap Bloem, Wim Dimmers, Hugh Jansman, and R. M. A. Wegman. Tiny Forest Zaanstad : citizen science and determining biodiversity in Tiny Forest Zaanstad. Wageningen: Wageningen Environmental Research, 2018. http://dx.doi.org/10.18174/446911.

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J., Nkem, Idinoba M., Brockhaus M., Kalame F.B., and Tas Adriaan. Adaptation to climate change in Africa: synergies with biodiversity and forest. Center for International Forestry Research (CIFOR), 2008. http://dx.doi.org/10.17528/cifor/002607.

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4

Charnley, Susan, A. Paige Fischer, and Eric T. Jones. Traditional and local ecological knowledge about forest biodiversity in the Pacific Northwest. Portland, OR: U.S. Department of Agriculture, Forest Service, Pacific Northwest Research Station, 2008. http://dx.doi.org/10.2737/pnw-gtr-751.

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Schwab, Dominik, Janice Weatherley-Singh, Matt Leggett, Leonie Lawrrence, and Arnaud Goessens. WCS Case Studies and Recommendations: Supporting Producer Countries to Halt Deforestation, Forest Degradation and Biodiversity Loss at the Forest Frontier. Wildlife Conservation Society, 2021. http://dx.doi.org/10.19121/2020.report.39494.

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6

Marcos Morezuelas, Paloma. Gender, Forests and Climate Change. Inter-American Development Bank, March 2021. http://dx.doi.org/10.18235/0003072.

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As users of forest products and guardians of traditional knowledge, women have always been involved in forestry. Nevertheless, their access to forest resources and benefits and participation in forest management is limited compared to mens despite the fact that trees are more important to women, who depend on them for their families food security, income generation and cooking fuel. This guide aims to facilitate the incorporation of a gender lens in climate change mitigation and adaptation operations in forests, with special attention to those framed in REDD. This guide addresses four themes value chains, environmental payment schemes, firewood and biodiversity that relate directly to 1) how climate change impacts affect women in the forest and 2) how mitigation and adaptation measures affect womens access to resources and benefits distribution.
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Lopez, Raquel C., Emma P. Abasolo, and Rodel D. Lasco. Carbon-forestry projects in the Philippines: potential and challenges: the Quirino forest-carbon development project in Sierra Madre Biodiversity Corridor. World Agroforestry Centre, 2011. http://dx.doi.org/10.5716/wp11056.pdf.

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Lopez, Herrera, and Lasco. Carbon-forestry projects in the Philippines: potential and challenges: the Quirino forest-carbon development project in Sierra Madre Biodiversity Corridor. World Agroforestry Centre (ICRAF), 2011. http://dx.doi.org/10.5716/wp11057.pdf.

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Scrafford, Matthew, and Justina Ray. Wolverine Denning Ecology and Ontario's Forest Management Guide for Conserving Biodiversity at the Stand and Site Scales. Wildlife Conservation Society, 2022. http://dx.doi.org/10.19121/2022.report.44166.

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van Noordwijk, M., J.-L. Pfund, M. Bakarr, L. Jackson, G. Schroth, H. Hairiah, and L. Joshi. Agro-biodiversity and CGIAR tree and forest science: approaches and examples from Sumatra ICRAF Working Paper no. 17. World Agroforestry Centre (ICRAF), 2006. http://dx.doi.org/10.5716/wp06116.pdf.

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