The science and economics of ex situ plant conservation.
about
A Belated Green Revolution for Cannabis: Virtual Genetic Resources to Fast-Track Cultivar DevelopmentMassive yet grossly underestimated global costs of invasive insectsCryopreservation for preservation of potato genetic resourcesUsing morphological, molecular and climatic data to delimitate yews along the Hindu Kush-Himalaya and adjacent regionsSeeds of alpine plants are short lived: implications for long-term conservationUses of phage display in agriculture: a review of food-related protein-protein interactions discovered by biopanning over diverse baitsFactors affecting stress tolerance in recalcitrant embryonic axes from seeds of four Quercus (Fagaceae) species native to the USA or China.The Arabidopsis sn-1-specific mitochondrial acylhydrolase AtDLAH is positively correlated with seed viability.Keeping All the PIECES: Phylogenetically Informed Ex Situ Conservation of Endangered Species.Advances in seed conservation of wild plant species: a review of recent researchConservation and sustainable use of medicinal plants: problems, progress, and prospects.LEA polypeptide profiling of recalcitrant and orthodox legume seeds reveals ABI3-regulated LEA protein abundance linked to desiccation tolerance.Seed priming: state of the art and new perspectives.Collecting near mature and immature orchid seeds for ex situ conservation: 'in vitro collecting' as a case studyTowards a better monitoring of seed ageing under ex situ seed conservation.Phospholipase Dα1-mediated phosphatidic acid change is a key determinant of desiccation-induced viability loss in seeds.Plant science. Preservation of recalcitrant seeds.DNA profiling, telomere analysis and antioxidant properties as tools for monitoring ex situ seed longevity.Molecular characterization of the acquisition of longevity during seed maturation in soybeanVolatile fingerprints of seeds of four species indicate the involvement of alcoholic fermentation, lipid peroxidation, and Maillard reactions in seed deterioration during ageing and desiccation stress.Conservation and genetic characterisation of common bean landraces from Cilento region (southern Italy): high differentiation in spite of low genetic diversity.Genetic diversity and ex situ conservation of Loropetalum subcordatum, an endangered species endemic to China.Cryopreservation without vitrification suitable for large scale cryopreservation of orchid seeds.Conservation of Tropical Plant Biodiversity: What Have We Done, Where Are We Going?Cryoconservation of South African plant genetic diversityDo richness and rarity hotspots really matter for orchid conservation in light of anticipated habitat loss?Seeing the fruit for the trees in BorneoMass Fruiting in Borneo: A Missed OpportunityPredicting the terminal velocity of dipterocarp fruitBanking on the future: progress, challenges and opportunities for the genetic conservation of forest treesConstraints to and conservation implications for climate change adaptation in plantsDehiscence method: a seed-saving, quick and simple viability assessment in riceEx situ conservation of threatened plants in Brazil: a strategic plan to achieve Target 8 of the Global Strategy for Plant Conservation
P2860
Q26741507-2AB01F4E-57C9-481D-844F-213A5594CC0CQ27108034-71C63134-3345-4B5E-A25E-4A92048E60DFQ28082512-E1C47CA6-7DF2-46ED-912E-2789A6353F64Q30000833-46D68C5E-B700-403A-9FC2-4ABC2A4037E0Q33748368-392B6777-FFDF-4C27-A169-DF1974CA4852Q34741397-EECBFC04-AFCA-44B7-9F76-EAFE1433D0D2Q35344643-780F34FE-8B97-4E41-8FAA-B1B4E03599F6Q35570134-2DA5A43A-D1FA-4CE3-862D-F26E6533CEDEQ36039165-5C026AD5-13B8-4DC0-B401-64B7247E2A4DQ36725661-EC77473B-B541-448E-A280-74CC6650ADD9Q37140362-66E82A00-35FA-4C10-B70A-A33868123826Q37255355-ADEABEF1-0B14-4E09-8A65-7C949BD320BAQ38392239-C121B6C3-E12B-457A-939A-639DD8F4FEC3Q38632764-81242E2A-C373-435C-828C-CAA0258A6E1CQ38780323-E7614232-940E-47FB-83E6-C74E2DE32735Q38941503-1736A774-58BD-4843-AF78-15267605300AQ39571416-D1E4DCA1-1E5E-463C-9DA5-D5DED59D65E9Q39969927-D7604CCC-E615-4FAA-A2FE-0DE0667C4756Q40995680-8C63E505-6AD7-4173-B381-57A615CBF619Q41739243-C64AC87B-3572-4E50-983C-08E60D539A79Q46286072-3A1961EA-526F-4574-AEAE-C43F5D486BD2Q50033140-B76C99D0-756C-4E6E-8AD5-2FD7653E1B4DQ54923235-9DBE82FF-1085-4232-AED2-8AEA71D9BF79Q56463150-D4BA1374-689B-4E62-8604-A8FA44EF49B5Q56764356-FCC70C6A-2549-4BDE-9461-A3E825EEA194Q56964451-CB53121E-11EC-4B5D-B59B-54F140B7C8C0Q57024009-EAE716CF-1806-4691-A8FC-5F9A51FAB1ADQ57024030-88D32330-D814-4A16-B269-F53C04BC8CD4Q57197369-C9F92D8C-7068-4EC0-9F62-55E59F68A013Q57426998-8EDA56B9-6406-418F-9E9A-90EA327EB7C9Q57554573-21B72021-FB16-4746-9EC7-32F38FFFEEA0Q58791638-95A01BE3-2E4B-47CB-825B-D547885A8C56Q92427696-6BF3BA7C-8402-473E-9DD2-22EF3FD074D4
P2860
The science and economics of ex situ plant conservation.
description
2009 nî lūn-bûn
@nan
2009 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
The science and economics of ex situ plant conservation.
@ast
The science and economics of ex situ plant conservation.
@en
type
label
The science and economics of ex situ plant conservation.
@ast
The science and economics of ex situ plant conservation.
@en
prefLabel
The science and economics of ex situ plant conservation.
@ast
The science and economics of ex situ plant conservation.
@en
P1476
The science and economics of ex situ plant conservation.
@en
P2093
Hugh W Pritchard
P304
P356
10.1016/J.TPLANTS.2009.09.005
P50
P577
2009-10-07T00:00:00Z