about
Integrated genomics and molecular breeding approaches for dissecting the complex quantitative traits in crop plantsNorth-South divide: contrasting impacts of climate change on crop yields in Scotland and EnglandAssessing the vulnerability of eco-environmental health to climate change.Deep Neural Networks Based Recognition of Plant Diseases by Leaf Image Classification.Future Risks of Pest Species under Changing Climatic Conditions.Epidemiological study of hazelnut bacterial blight in central Italy by using laboratory analysis and geostatistics.Migrate or evolve: options for plant pathogens under climate change.Risk levels of invasive Fusarium oxysporum f. sp. in areas suitable for date palm (Phoenix dactylifera) cultivation under various climate change projections.Rainfall and temperatures changes have confounding impacts on Phytophthora cinnamomi occurrence risk in the southwestern USA under climate change scenarios.Climatic variation and seed persistence: freeze-thaw cycles lower survival via the joint action of abiotic stress and fungal pathogens.Assessment of mycotoxin risk on corn in the Philippines under current and future climate change conditions.Biotic interactions and plant invasions.Emerging pests and diseases of South-east Asian cassava: a comprehensive evaluation of geographic priorities, management options and research needs.Emergence of white pine needle damage in the northeastern United States is associated with changes in pathogen pressure in response to climate change.Global change shifts vegetation and plant-parasite interactions in a boreal mire.Range and severity of a plant disease increased by global warming.Testing Projected Climate Change Conditions on the Endoconidiophora polonica / Norway spruce Pathosystem Shows Fungal Strain Specific EffectsEcosystem, location, and climate effects on foliar secondary metabolites of lodgepole pine populations from central British Columbia.Wheat.Integrating natural and social science perspectives on plant disease risk, management and policy formulation.Enhanced sensitivity to higher ozone in a pathogen-resistant tobacco cultivar.Pathogen infection drives patterns of nutrient resorption in citrus plants.NOXious gases and the unpredictability of emerging plant pathogens under climate changeComparative analyses of fungicide sensitivity and SSR marker variations indicate a low risk of developing azoxystrobin resistance in Phytophthora infestans.Virus infection mediates the effects of elevated CO2 on plants and vectors.Sustainable agriculture and plant diseases: an epidemiological perspectiveImpact of Combined Abiotic and Biotic Stresses on Plant Growth and Avenues for Crop Improvement by Exploiting Physio-morphological Traits.Physiological performance of an Alaskan shrub (Alnus fruticosa) in response to disease (Valsa melanodiscus) and water stress.Trichoderma for climate resilient agriculture.A Robust Deep-Learning-Based Detector for Real-Time Tomato Plant Diseases and Pests Recognition.Trade-offs and evolution of thermal adaptation in the Irish potato famine pathogen Phytophthora infestans.Ecological genetic divergence of the fungal pathogen Didymella rabiei on sympatric wild and domesticated Cicer spp. (Chickpea).Brown rust disease control in winter wheat: I. Exploring an approach for disease progression based on night weather conditions.Phylogenetic diversity of Fusarium incarnatum-equiseti species complex isolated from Spanish wheat.Genetic signatures of variation in population size in a native fungal pathogen after the recent massive plantation of its host tree.Impact of Elevated CO2 and Temperature on Brown Planthopper Population in Rice Ecosystem.Effects of warming and nitrogen on above- and below-ground herbivory of an exotic invasive plant and its native congenerIncreased winter precipitation benefits the native plant pathogen Ustilago bullata that infects an invasive grassComparative biology of different plant pathogens to estimate effects of climate change on crop diseases in EuropeUsing a climatic niche model to predict the direct and indirect impacts of climate change on the distribution of Douglas-fir in New Zealand
P2860
Q27026750-E0F6DDCB-BFD8-4963-88E6-F0605EB2D054Q28748494-8D49C7F4-1E5B-45FB-A886-914B7EE85BABQ28752121-77AB01B6-8895-489E-A688-1A69199C8F7EQ30378999-E2E675AB-9E65-496A-A9DC-FA95FCFC7B10Q30385036-EEBC52AF-26A2-4FBC-9862-7D5E4698CFE8Q30394229-68EEDC13-CB00-4C44-9318-A3A8721242BBQ30611990-8D002230-5F43-4BAF-A2AA-5C8A1105DFFCQ30715913-67BEFDCC-C9F2-45F4-B48F-2EC3B8CCDEF5Q30754570-C5F921FF-DC69-4FEC-B192-749D3A533CE9Q30972604-F55FD14C-9643-4911-BDBC-8C731899A087Q30992300-4F3719C8-1B83-4E6D-BF05-AA63D0DD3B85Q31041135-742EA8CD-FFF5-4168-869C-7BA4EF784D67Q31043476-0C509AA1-157F-471B-AE60-40B79D51209CQ31097366-1BEEAB3F-1DA0-4F30-97C8-D09DAC64561BQ31111612-671A72FE-9F36-421D-8F0D-13640BC5CCABQ33294800-D2A789B9-5508-40FD-A2D7-35B36D83F35EQ33729561-CE3AEB94-B489-4E3D-8D66-109D5F9785B9Q33888076-DB54509F-7702-4A5D-8A92-3C0A7DA64344Q34977252-423E3ADC-CBD8-4A74-B2DA-32B9E5FB2A7BQ35088459-788EEA55-08F9-4C64-81EC-49E4826AA0AAQ35746597-602330D1-224B-4633-94BB-32F136B04768Q36106770-33F5E733-220E-4684-8B37-DA62B8CF25E0Q36366234-60CFC9FE-966D-48C2-98D9-7B375817668FQ36555510-99B61757-2CE8-4B98-8DB7-1650E9F1EB80Q36651359-F75E1605-4FD1-468A-ADE4-8A6B3E34BD08Q36934979-66F27165-988A-4C6F-B816-84E0F69E1BC0Q39274343-BBF5A563-A4FA-49D6-8D50-A79316656E15Q39406127-ED346A16-4797-45E6-B960-6F518F3ADF61Q39427704-F580BCCD-BD13-4AEF-A019-3BE9203933C6Q40068010-94ECAC5E-8DE4-46B2-AFC4-81FD401FB938Q40706763-E26084D2-05F0-4EE9-9D72-B1CF277D3C88Q42120919-23F12E79-6C7C-4855-B452-85D0B040E6AAQ43494589-13F316EE-2589-4D4F-9337-D41D25721F38Q46885156-FF758E5F-FF2F-41E6-A4EE-96F6C6764D02Q47186958-DCE03792-D734-4A7D-B0F2-F284D5C877B8Q52641696-954AC8B7-658D-4139-A332-35A7F1D4BC67Q56426593-11D23648-EA77-4BC2-AC9F-6868754F2F2FQ56426647-1C086F7D-B8B1-4A1F-9419-A581E272065BQ56562100-E4F7BFDF-9214-41CE-BC81-9CEC18A549B0Q56678346-0FBFA58F-9711-4896-B8F8-C5358E865F18
P2860
description
1999 nî lūn-bûn
@nan
1999 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
Climate change and plant disease management.
@ast
Climate change and plant disease management.
@en
type
label
Climate change and plant disease management.
@ast
Climate change and plant disease management.
@en
prefLabel
Climate change and plant disease management.
@ast
Climate change and plant disease management.
@en
P1476
Climate change and plant disease management
@en
P2093
S Chakraborty
S M Coakley
P304
P356
10.1146/ANNUREV.PHYTO.37.1.399
P577
1999-09-01T00:00:00Z