Browsing by Subject "INSIGHTS"
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Item Open Access DNA barcoding exposes a case of mistaken identity in the fern horticultural trade.(Molecular ecology resources, 2010-11) Pryer, Kathleen M; Schuettpelz, Eric; Huiet, Layne; Grusz, Amanda L; Rothfels, Carl J; Avent, Tony; Schwartz, David; Windham, Michael DUsing cheilanthoid ferns, we provide an example of how DNA barcoding approaches can be useful to the horticultural community for keeping plants in the trade accurately identified. We use plastid rbcL, atpA, and trnG-R sequence data to demonstrate that a fern marketed as Cheilanthes wrightii (endemic to the southwestern USA and northern Mexico) in the horticultural trade is, in fact, Cheilanthes distans (endemic to Australia and adjacent islands). Public and private (accessible with permission) databases contain a wealth of DNA sequence data that are linked to vouchered plant material. These data have uses beyond those for which they were originally generated, and they provide an important resource for fostering collaborations between the academic and horticultural communities. We strongly advocate the barcoding approach as a valuable new technology available to the horticulture industry to help correct plant identification errors in the international trade.Item Open Access Phylogeny, divergence time estimates, and phylogeography of the diploid species of the polypodium vulgare complex (Polypodiaceae)(Systematic Botany, 2014-01-01) Sigel, EM; Windham, MD; Haufler, CH; Pryer, KM© 2014 by the American Society of Plant Taxonomists. The Polypodium vulgare complex (Polypodiaceae) comprises a well-studied group of fern taxa whose members are cryptically differentiated morphologically and have generated a confusing and highly reticulate species cluster. Once considered a single species spanning much of northern Eurasia and North America, P. vulgare has been segregated into 17 diploid and polyploid taxa as a result of cytotaxonomic work, hybridization experiments, and isozyme studies conducted during the 20th century. Despite considerable effort, however, the evolutionary relationships among the diploid members of the P. vulgare complex remain poorly resolved. Here we infer a diploids-only phylogeny of the P. vulgare complex and related species to test previous hypotheses concerning relationships within Polypodium sensu stricto. Using sequence data from four plastid loci (atpA, rbcL, matK, and trnG-trnR), we recovered a monophyletic P. vulgare complex comprising four well-supported clades. The P. vulgare complex is resolved as sister to the Neotropical P. plesiosorum group and these, in turn, are sister to the Asian endemic Pleurosoriopsis makinoi. Using divergence time analyses incorporating previously derived age constraints and fossil data, we estimate an early Miocene origin for the P. vulgare complex and a late Miocene-Pliocene origin for the four major diploid lineages of the complex, with the majority of extant diploid species diversifying from the late Miocene through the Pleistocene. Finally, we use our node age estimates to reassess previous hypotheses, and to propose new hypotheses, about the historical events that shaped the diversity and current geographic distribution of the diploid species of the P. vulgare complex.Item Open Access Protected areas and biodiversity conservation in India(Biological Conservation, 2019-09-01) Ghosh-Harihar, Mousumi; An, Ruby; Athreya, Ramana; Borthakur, Udayan; Chanchani, Pranav; Chetry, Dilip; Datta, Aparajita; Harihar, Abishek; Karanth, Krithi K; Mariyam, Dincy; Mohan, Dhananjai; Onial, Malvika; Ramakrishnan, Uma; Robin, VV; Saxena, Ajai; Shahabuddin, Ghazala; Thatte, Prachi; Vijay, Varsha; Wacker, Kristen; Mathur, Vinod B; Pimm, Stuart L; Price, Trevor DThree well-supported generalizations in conservation biology are that developing tropical countries will experience the greatest biodiversity declines in the near future, they are some of the least studied areas in the world, and in these regions especially, protection requires local community support. We assess these generalizations in an evaluation of protected areas in India. The 5% of India officially protected covers most ecoregions and protected areas have been an important reason why India has suffered no documented species extinctions in the past 70 years. India has strong legislation favouring conservation, government investment focused on 50 Tiger Reserves, and government compensation schemes that facilitate local support, all of which brighten future prospects. However, many protected areas are too small to maintain a full complement of species, making connectivity and species use of buffer zones a crucial issue. Conservation success and challenges vary across regions according to their development status. In less developed areas, notably the biodiverse northeast Himalaya, protected areas maintaining the highest biodiversity result from locally-focused efforts by dedicated individuals. Across India, we demonstrate considerable opportunities to increase local income through ecotourism. Our evaluation confirms a lack of data, increasing threats, and the importance of local support. Research on biodiversity in buffer zones, development of long-term monitoring schemes, and assessment of cash and conservation benefits from tourism are in particular need. For policy makers, two main goals should be the development of monitoring plans for ‘eco-sensitive zones’ around protected areas, and a strong emphasis on preserving established protected areas.