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Forest Sciences

Genetic structure

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Full-Text Articles in Life Sciences

Genetic Comparison Between Natural And Planted Populations Of Pinus Brutia And Cupressus Sempervirens In Syria, Batoul N. Al-Hawija, Viktoria Wagner, Isabell Hensen Jan 2014

Genetic Comparison Between Natural And Planted Populations Of Pinus Brutia And Cupressus Sempervirens In Syria, Batoul N. Al-Hawija, Viktoria Wagner, Isabell Hensen

Turkish Journal of Agriculture and Forestry

There is wide consensus that ongoing deforestation contributes to global warming and poses a threat to species diversity. Less understood is whether the practice of creating plantations might also erode genetic diversity and undermine the genetic structure of tree populations. We tested these hypotheses in natural and planted populations of Pinus brutia Ten. subsp. brutia and Cupressus sempervirens L. var. horizontalis (Mill.), 2 important forestry species in the Mediterranean region. We used plant material from 3 different bioclimatic regions in Syria. Using RAPD markers, we evaluated the genetic diversity and structure of 12 populations of P. brutia (6 natural, 6 …

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Influence Of Translocations On Eastern Wild Turkey Population Genetics In Texas, Christopher E. Comer, Warren C. Conway, Gary Calkins, Sabrina Seidel, Randy Deyoung, Jason Hardin Jan 2013

Influence Of Translocations On Eastern Wild Turkey Population Genetics In Texas, Christopher E. Comer, Warren C. Conway, Gary Calkins, Sabrina Seidel, Randy Deyoung, Jason Hardin

Faculty Publications

Between 1979 and 2006, over 7,000 eastern wild turkeys (Meleagris gallopavo silvestris) from 16 states were translocated to east Texas in an attempt to restore a stable, huntable population. Although current populations are stable in some areas and a spring male-only hunting season was opened in 1995, turkey density in the region remains low and large areas of apparently suitable habitat are not occupied. The longterm effects of the extensive translocations and current levels of connectivity among various populations are unknown. We used microsatellite DNA analysis to assess the influence of translocations on current genetic structure and gene flow in …

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Anthropogenic And Natural Causes Influencing Population Genetic Structure Of Juniperus Procera Hochst. Ex Endl. In The Ethiopian Highlands, Demissew Sertse, Oliver Gailing, Nicolas George Eliades, Reiner Finkeldey Aug 2011

Anthropogenic And Natural Causes Influencing Population Genetic Structure Of Juniperus Procera Hochst. Ex Endl. In The Ethiopian Highlands, Demissew Sertse, Oliver Gailing, Nicolas George Eliades, Reiner Finkeldey

Michigan Tech Publications

Juniperus procera is economically highly important but threatened tree species. It is the only species among 67 taxa in the genus Juniperus that naturally grows in Africa and south of the equator extending up to 18°S in Zimbabwe. Ethiopia is assumed to host the largest J. procera populations, which are also believed to have high genetic variation owing to their wide ecological amplitude. This study assessed genetic variation at AFLPs of J. procera populations in the Ethiopian highlands. In the study six populations, namely Chilimo, Goba, Menagesha-Suba, Wef-Washa, Yabelo and Ziquala were included. A total of 20-24 trees from each …

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Assessment Of The Domestication State Of Ackee (Blighia Sapida K.D. Koenig) In Benin Based On Aflp And Microsatellite Markers, Marius R.M. Ekué, Oliver Gailing, Barbara Vornam, Reiner Finkeldey Apr 2011

Assessment Of The Domestication State Of Ackee (Blighia Sapida K.D. Koenig) In Benin Based On Aflp And Microsatellite Markers, Marius R.M. Ekué, Oliver Gailing, Barbara Vornam, Reiner Finkeldey

Michigan Tech Publications

Ackee (Blighia sapida) is a native multipurpose species important for the livelihoods of the rural populations in Benin. Trees are found in natural forests or are managed by farmers in different traditional agroforestry systems. Genetic variation at amplified fragment length polymorphism (AFLP) markers, four nuclear microsatellites (nSSRs) and one chloroplast microsatellite (cpSSR) were investigated in 279 individuals from six wild and eight cultivated populations from Benin. The AFLP data revealed moderate levels of diversity of ackee in Benin (mean diversity values are proportion of polymorphic loci = 52.8% and Nei's gene diversity = 0.157, for 375 AFLP fragments). The mean …

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Population Genetic Structure In Nolina Brittoniana (Agavaceae), A Plant Endemic To The Central Ridges Of Florida, Rebecca W. Dolan, Rebecca Yahr, Eric S. Menges Mar 2010

Population Genetic Structure In Nolina Brittoniana (Agavaceae), A Plant Endemic To The Central Ridges Of Florida, Rebecca W. Dolan, Rebecca Yahr, Eric S. Menges

Rebecca W. Dolan

Nolina brittoniana is endemic to the central ridges of peninsular Florida. Its scrub and sandhill habitats have suffered extensive anthropogenic modification. Analysis of isozymes from populations throughout its range revealed less genetic variation than generally reported for endemic plants. Populations were well differentiated, with significant clines in allele frequency along the north-south axis of distribution. Pair-wise F-statistics calculated at four levels of population geographic substructure revealed that current and inferred historical habitat patches had similar genetic structure. We found no evidence of recent bottlenecks or changes in genetic structure due to habitat loss and fragmentation, consistent with populations having always …

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Population Genetic Structure In Nolina Brittoniana (Agavaceae), A Plant Endemic To The Central Ridges Of Florida, Rebecca W. Dolan, Rebecca Yahr, Eric S. Menges Jan 2004

Population Genetic Structure In Nolina Brittoniana (Agavaceae), A Plant Endemic To The Central Ridges Of Florida, Rebecca W. Dolan, Rebecca Yahr, Eric S. Menges

Scholarship and Professional Work - LAS

Nolina brittoniana is endemic to the central ridges of peninsular Florida. Its scrub and sandhill habitats have suffered extensive anthropogenic modification. Analysis of isozymes from populations throughout its range revealed less genetic variation than generally reported for endemic plants. Populations were well differentiated, with significant clines in allele frequency along the north-south axis of distribution. Pair-wise F-statistics calculated at four levels of population geographic substructure revealed that current and inferred historical habitat patches had similar genetic structure. We found no evidence of recent bottlenecks or changes in genetic structure due to habitat loss and fragmentation, consistent with populations having always …

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