Identifying the Geographic Origins for the Introduction of Taeniatherum Caput-medusae Subsp. Asperum (medusehead) in the Western United States

Download Identifying the Geographic Origins for the Introduction of Taeniatherum Caput-medusae Subsp. Asperum (medusehead) in the Western United States PDF Online Free

Author :
Publisher :
ISBN 13 :
Total Pages : 86 pages
Book Rating : 4.:/5 (1 download)

DOWNLOAD NOW!


Book Synopsis Identifying the Geographic Origins for the Introduction of Taeniatherum Caput-medusae Subsp. Asperum (medusehead) in the Western United States by : Shane Kurtis Skaar

Download or read book Identifying the Geographic Origins for the Introduction of Taeniatherum Caput-medusae Subsp. Asperum (medusehead) in the Western United States written by Shane Kurtis Skaar and published by . This book was released on 2015 with total page 86 pages. Available in PDF, EPUB and Kindle. Book excerpt: "The use of molecular markers can provide insights into the demographic and evolutionary processes that have shaped the genetic diversity of native populations and can be used to identify an invasive species' geographic origins. Taeniatherum caput-medusae subsp. asperum (medusahead) is a cleistogamous, diploid, annual grass native toEurasia that is now invasive in the western United States (U.S.). Enzyme electrophoresis methods (allozymes) have previously been used to analyze both native and invasive populations of medusahead. Results from these studies suggest that the invasion of medusahead in the westernU.S. stems from multiple introduction events. In addition, 10 of 34 populations from across the native range of the species possessed multilocus genotypes that match some of those detected in invasive populations, with six of these putative source populations located inGreece andNorthwestern Turkey. The overall objective of the current study is to better circumscribe the geographic origins for this invasion through allozyme analysis of 48 native populations of medusahead from Southeastern Europe (Albania, Bulgaria, Greece, Macedonia, Romania, Serbia, Northwestern Turkey, and Ukraine) and South-central Turkey. Among the 48 native populations I analyzed, a total of 35 multilocus genotypes were detected, with four of these genotypes matching those previously reported among invasive populations. Forty of the 48 (83.3%) native populations contained at least one individual with a multilocus genotype matching a genotype reported among invasive populations. The 48 populations from Southeastern Europe andSouth-central Turkey exhibit less genetic structure and display lower levels of genetic diversity compared with the 34 native populations previously analyzed. Also, the genetic diversity of these 48 populations is not geographically structured; it does not conform to an isolation-by-distance pattern. Taken together, results from this study suggest that the geographic origins of this invasion occur broadly across the study region. In addition, the genetic diversity of these 48 native populations appears to be influenced by stochastic demographic processes in which an individual or individuals with various genotypes randomly colonizes disturbed sites and establishes a population. This process has led to an intermixing of genotypes within and among populations across the study area. Because allozymes typical underestimate the genetic diversity of populations, the findings of this study should be assessed using a molecular marker with greater resolving power (i.e., amplified fragment length analysis)."--Boise State University ScholarWorks.

Genetic and Morphological Variation in Taeniatherum Caput-medusae (medusahead)

Download Genetic and Morphological Variation in Taeniatherum Caput-medusae (medusahead) PDF Online Free

Author :
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (936 download)

DOWNLOAD NOW!


Book Synopsis Genetic and Morphological Variation in Taeniatherum Caput-medusae (medusahead) by : Morgan Lindsey Peters

Download or read book Genetic and Morphological Variation in Taeniatherum Caput-medusae (medusahead) written by Morgan Lindsey Peters and published by . This book was released on 2013 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: "Invasive species are novel to a region, thus their timely and accurate identification is a critical first step in recognizing and managing the threats that they may present in their new habitats. Accurate identification of an introduced species in its new range can prove difficult however for a species that displays taxonomic complexity in its native range, i.e. consists of multiple, morphologically similar subspecies. Across its native range, Taeniatherum caput-medusae (medusahead) exhibits taxonomic complexity. Three subspecies have been recognized: T. caput-medusae ssp. caput-medusae, T. caput-medusae ssp.asperum, and T. caput-medusae ssp. crinitum. While subspecies caput-medusae is found in the western Mediterranean and subspecies crinitum occurs from eastern Europe to Central Asia, subspecies asperum is distributed across the geographic distribution of the species. Only subspecies asperum is believe to occur in the United States, where it is now invasive in portions of California, Idaho, Nevada, Oregon, Utah, and Washington. As part of ongoing research to better understand and manage this invasion, genetic analyses of both native and invasive populations of medusahead were conducted. An important prerequisite to these analyses is the proper identification of the three subspecies. In the current study, plants from each native population were grown in a greenhouse common garden, harvested at maturity, and measured using previously described morphological characters. After Bonferroni correction, three characters, glume length, glume angle, and palea length, were found to be statistically significant. Thus, these three characters were quite useful in assigning plants to each of the three subspecies. I found that two other characters, lemma hairs and conical cells, were less informative. Differentiation among native populations of medusahead was further assessed using a molecular genetic marker. The results of a UPGMA cluster diagram based on allozyme data indicates that subspecies crinitum is genetically differentiated from the other two, some populations of subspecies caput-medusae and asperum co-occur within different clusters, and subspecies asperum is the most variable. Results of the analysis of multilocus genotypes are generally consistent with the UPGMA diagram (e.g., subspecies caput-medusae and asperum share six multilocus genotypes). This research confirms the need of such studies to disentangle the taxonomic complexity that can be found in the native range of invasive species. The results of an earlier allozyme analysis were consistent with the genetic signature associated with multiple introductions, although this finding can only be confirmed with the analysis of native populations. In the current study, I compared allozyme diversity in native and invasive populations of medusahead to: identify the geographic origin(s) for the U.S. invasion, test the multiple introduction hypothesis, and determine the genetic consequences of these events. Five of the seven homozygous multilocus genotypes previously observed in the western U.S. have been detected in native populations. The geographic origins for these introductions appear to have been drawn from France, Sardinia, Greece, and Turkey, although additional analyses are ongoing. These findings provide support for the multiple introduction hypothesis. Results of this study have implications for the biological control of medusahead: i) the search for effective and specific biological control agents will have to occur broadly across the species' native range, ii) multiple agents may be required to control invasive populations that are admixtures, and iii) because invasive population are genetically depauperate, highly adapted biocontrol agents are likely to be quite effective."--Boise State University ScholarWorks.