Modelling the long-term impacts of selective logging on genetic diversity and demographic structure of four tropical tree species in the Amazon forest

Modelling the long-term impacts of selective logging on genetic diversity and demographic structure of four tropical tree species in the Amazon forest

In the last three decades, Amazon tropical forests have experienced high rates of deforestation, both by clearing for agriculture and by logging. In this study, we use computer simulations to examine the potential effects of forest logging on genetic diversity and demographic recovery (basal area de...

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Veröffentlicht in:Forest ecology and management 2008-01, Vol.254 (2), p.335-349
Hauptverfasser: Sebbenn, Alexandre M., Degen, Bernd, Azevedo, Vânia C.R., Silva, Marivana B., de Lacerda, André E.B., Ciampi, Ana Y., Kanashiro, Milton, Carneiro, Francimary da S., Thompson, Ian, Loveless, Marilyn D.
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Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
Computer simulations
Forest growth rates
Forest harvesting and working in forest
Forest management
Forest management. Stand types and stand dynamics. Silvicultural treatments. Tending of stands. Natural regeneration
Forestry
Fundamental and applied biological sciences. Psychology
Genetic diversity
Logging practices
Manilkara
Mating system
Sustainable forest management
Synecology
Terrestrial ecosystems
Tropical forest
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container_end_page 349
container_issue 2
container_start_page 335
container_title Forest ecology and management
container_volume 254
creator Sebbenn, Alexandre M.
Degen, Bernd
Azevedo, Vânia C.R.
Silva, Marivana B.
de Lacerda, André E.B.
Ciampi, Ana Y.
Kanashiro, Milton
Carneiro, Francimary da S.
Thompson, Ian
Loveless, Marilyn D.
description In the last three decades, Amazon tropical forests have experienced high rates of deforestation, both by clearing for agriculture and by logging. In this study, we use computer simulations to examine the potential effects of forest logging on genetic diversity and demographic recovery (basal area development) of four neotropical tree species over a time frame reflecting multiple logging events. The study species, Bagassa guianensis Aubl., Hymenaea courbaril L., Manilkara huberi (Ducke) Chevalier, and Symphonia globulifera L.f., are all taxa which are commonly exploited for timber in the Brazilian Amazon. The simulations were parameterized using empirical data from field studies in the Tapajós National Forest, Pará State, Brazil, including genotypes at microsatellite loci, demography, ecology and growth for each species. Eight scenarios, combining two different cutting cycles and two minimum cutting diameters, were examined for each of the four species. The scenarios represent the actual forest practices used in Brazil and French Guiana (cutting diameter 45 and 60 cm, and cutting cycle of 30 and 65 years, respectively). Logging scenarios were applied for six cutting cycles, and final genetic and demographic data were compared to baseline data from corresponding control scenarios. At the end of the simulated period the basal area was strongly reduced under all conditions in B. guianensis, H. courbaril, and M. huberi. In only two scenarios was a species able to recover its basal area following logging ( S. globulifera with both 45- and 60-cm cutting diameters under a 65-year cutting cycle). In the logging scenarios, all species showed a loss of alleles and genotypes and an increased genetic distance (calculated between each population at the start and the end of the simulations). These effects were higher under the most intensive logging cycles (30 years, 45 cm). However, effective number of alleles, expected and observed heterozygosities, and the fixation index were little affected by the logging simulations. Over all, we conclude that, even under very optimistic conditions for growth and recruitment, current logging practices are not sustainable in terms of basal area. Our simulations show that different species respond differently to logging, both demographically and genetically. No single set of logging parameters can be applied to the forest as a whole. Rather, forest management practices must be species-specific, taking into account not only growth para
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In this study, we use computer simulations to examine the potential effects of forest logging on genetic diversity and demographic recovery (basal area development) of four neotropical tree species over a time frame reflecting multiple logging events. The study species, Bagassa guianensis Aubl., Hymenaea courbaril L., Manilkara huberi (Ducke) Chevalier, and Symphonia globulifera L.f., are all taxa which are commonly exploited for timber in the Brazilian Amazon. The simulations were parameterized using empirical data from field studies in the Tapajós National Forest, Pará State, Brazil, including genotypes at microsatellite loci, demography, ecology and growth for each species. Eight scenarios, combining two different cutting cycles and two minimum cutting diameters, were examined for each of the four species. The scenarios represent the actual forest practices used in Brazil and French Guiana (cutting diameter 45 and 60 cm, and cutting cycle of 30 and 65 years, respectively). Logging scenarios were applied for six cutting cycles, and final genetic and demographic data were compared to baseline data from corresponding control scenarios. At the end of the simulated period the basal area was strongly reduced under all conditions in B. guianensis, H. courbaril, and M. huberi. In only two scenarios was a species able to recover its basal area following logging ( S. globulifera with both 45- and 60-cm cutting diameters under a 65-year cutting cycle). In the logging scenarios, all species showed a loss of alleles and genotypes and an increased genetic distance (calculated between each population at the start and the end of the simulations). These effects were higher under the most intensive logging cycles (30 years, 45 cm). However, effective number of alleles, expected and observed heterozygosities, and the fixation index were little affected by the logging simulations. Over all, we conclude that, even under very optimistic conditions for growth and recruitment, current logging practices are not sustainable in terms of basal area. Our simulations show that different species respond differently to logging, both demographically and genetically. No single set of logging parameters can be applied to the forest as a whole. 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In this study, we use computer simulations to examine the potential effects of forest logging on genetic diversity and demographic recovery (basal area development) of four neotropical tree species over a time frame reflecting multiple logging events. The study species, Bagassa guianensis Aubl., Hymenaea courbaril L., Manilkara huberi (Ducke) Chevalier, and Symphonia globulifera L.f., are all taxa which are commonly exploited for timber in the Brazilian Amazon. The simulations were parameterized using empirical data from field studies in the Tapajós National Forest, Pará State, Brazil, including genotypes at microsatellite loci, demography, ecology and growth for each species. Eight scenarios, combining two different cutting cycles and two minimum cutting diameters, were examined for each of the four species. The scenarios represent the actual forest practices used in Brazil and French Guiana (cutting diameter 45 and 60 cm, and cutting cycle of 30 and 65 years, respectively). Logging scenarios were applied for six cutting cycles, and final genetic and demographic data were compared to baseline data from corresponding control scenarios. At the end of the simulated period the basal area was strongly reduced under all conditions in B. guianensis, H. courbaril, and M. huberi. In only two scenarios was a species able to recover its basal area following logging ( S. globulifera with both 45- and 60-cm cutting diameters under a 65-year cutting cycle). In the logging scenarios, all species showed a loss of alleles and genotypes and an increased genetic distance (calculated between each population at the start and the end of the simulations). These effects were higher under the most intensive logging cycles (30 years, 45 cm). However, effective number of alleles, expected and observed heterozygosities, and the fixation index were little affected by the logging simulations. 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Stand types and stand dynamics. Silvicultural treatments. Tending of stands. Natural regeneration</topic><topic>Forestry</topic><topic>Fundamental and applied biological sciences. Psychology</topic><topic>Genetic diversity</topic><topic>Logging practices</topic><topic>Manilkara</topic><topic>Mating system</topic><topic>Sustainable forest management</topic><topic>Synecology</topic><topic>Terrestrial ecosystems</topic><topic>Tropical forest</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Sebbenn, Alexandre M.</creatorcontrib><creatorcontrib>Degen, Bernd</creatorcontrib><creatorcontrib>Azevedo, Vânia C.R.</creatorcontrib><creatorcontrib>Silva, Marivana B.</creatorcontrib><creatorcontrib>de Lacerda, André E.B.</creatorcontrib><creatorcontrib>Ciampi, Ana Y.</creatorcontrib><creatorcontrib>Kanashiro, Milton</creatorcontrib><creatorcontrib>Carneiro, Francimary da S.</creatorcontrib><creatorcontrib>Thompson, Ian</creatorcontrib><creatorcontrib>Loveless, Marilyn D.</creatorcontrib><collection>Pascal-Francis</collection><collection>CrossRef</collection><collection>Environment Abstracts</collection><collection>Environmental Sciences and Pollution Management</collection><collection>Environment Abstracts</collection><collection>Ecology Abstracts</collection><collection>Sustainability Science Abstracts</collection><collection>Technology Research Database</collection><collection>Engineering Research Database</collection><collection>Biotechnology and BioEngineering Abstracts</collection><collection>Genetics Abstracts</collection><jtitle>Forest ecology and management</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Sebbenn, Alexandre M.</au><au>Degen, Bernd</au><au>Azevedo, Vânia C.R.</au><au>Silva, Marivana B.</au><au>de Lacerda, André E.B.</au><au>Ciampi, Ana Y.</au><au>Kanashiro, Milton</au><au>Carneiro, Francimary da S.</au><au>Thompson, Ian</au><au>Loveless, Marilyn D.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Modelling the long-term impacts of selective logging on genetic diversity and demographic structure of four tropical tree species in the Amazon forest</atitle><jtitle>Forest ecology and management</jtitle><date>2008-01-25</date><risdate>2008</risdate><volume>254</volume><issue>2</issue><spage>335</spage><epage>349</epage><pages>335-349</pages><issn>0378-1127</issn><eissn>1872-7042</eissn><coden>FECMDW</coden><abstract>In the last three decades, Amazon tropical forests have experienced high rates of deforestation, both by clearing for agriculture and by logging. In this study, we use computer simulations to examine the potential effects of forest logging on genetic diversity and demographic recovery (basal area development) of four neotropical tree species over a time frame reflecting multiple logging events. The study species, Bagassa guianensis Aubl., Hymenaea courbaril L., Manilkara huberi (Ducke) Chevalier, and Symphonia globulifera L.f., are all taxa which are commonly exploited for timber in the Brazilian Amazon. The simulations were parameterized using empirical data from field studies in the Tapajós National Forest, Pará State, Brazil, including genotypes at microsatellite loci, demography, ecology and growth for each species. Eight scenarios, combining two different cutting cycles and two minimum cutting diameters, were examined for each of the four species. The scenarios represent the actual forest practices used in Brazil and French Guiana (cutting diameter 45 and 60 cm, and cutting cycle of 30 and 65 years, respectively). Logging scenarios were applied for six cutting cycles, and final genetic and demographic data were compared to baseline data from corresponding control scenarios. At the end of the simulated period the basal area was strongly reduced under all conditions in B. guianensis, H. courbaril, and M. huberi. In only two scenarios was a species able to recover its basal area following logging ( S. globulifera with both 45- and 60-cm cutting diameters under a 65-year cutting cycle). In the logging scenarios, all species showed a loss of alleles and genotypes and an increased genetic distance (calculated between each population at the start and the end of the simulations). These effects were higher under the most intensive logging cycles (30 years, 45 cm). However, effective number of alleles, expected and observed heterozygosities, and the fixation index were little affected by the logging simulations. Over all, we conclude that, even under very optimistic conditions for growth and recruitment, current logging practices are not sustainable in terms of basal area. Our simulations show that different species respond differently to logging, both demographically and genetically. No single set of logging parameters can be applied to the forest as a whole. Rather, forest management practices must be species-specific, taking into account not only growth parameters but also ecological and reproductive variables, in order to move toward long-term forest sustainability.</abstract><cop>Amsterdam</cop><pub>Elsevier B.V</pub><doi>10.1016/j.foreco.2007.08.009</doi><tpages>15</tpages><oa>free_for_read</oa></addata></record>
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source ScienceDirect Journals (5 years ago - present)
subjects Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
Computer simulations
Forest growth rates
Forest harvesting and working in forest
Forest management
Forest management. Stand types and stand dynamics. Silvicultural treatments. Tending of stands. Natural regeneration
Forestry
Fundamental and applied biological sciences. Psychology
Genetic diversity
Logging practices
Manilkara
Mating system
Sustainable forest management
Synecology
Terrestrial ecosystems
Tropical forest
title Modelling the long-term impacts of selective logging on genetic diversity and demographic structure of four tropical tree species in the Amazon forest
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