Abstract is: Alison G. Power is an American biologist. She is a professor in the Department of Ecology and Evolutionary Biology at Cornell University in Ithaca, New York. Her research investigates disease ecology in plant communities, both natural and agricultural, across the U.S., Central America, Southeast Asia, and Africa.
human | Q5 |
P2671 | Google Knowledge Graph ID | /g/11f6158h_4 |
P269 | IdRef ID | 182204944 |
P244 | Library of Congress authority ID | n90617327 |
P496 | ORCID iD | 0000-0002-2442-0953 |
P214 | VIAF ID | 31152177 |
P10832 | WorldCat Entities ID | E39PBJtcBrCmKVQbKRQWYKDXh3 |
P166 | award received | Fellow of the Ecological Society of America | Q59766793 |
P69 | educated at | University of Washington | Q219563 |
P108 | employer | Cornell University | Q49115 |
P734 | family name | Power | Q5405444 |
Power | Q5405444 | ||
Power | Q5405444 | ||
P735 | given name | Alison | Q16154105 |
Alison | Q16154105 | ||
P6104 | maintained by WikiProject | WikiProject Invasion Biology | Q56241615 |
P106 | occupation | academic | Q3400985 |
biologist | Q864503 | ||
virologist | Q15634281 | ||
P39 | position held | chairperson | Q140686 |
P21 | sex or gender | female | Q6581072 |
Q42016300 | A multi-scale, landscape approach to predicting insect populations in agroecosystems |
Q59351041 | Anthropogenic influences on emergence of vector-borne plant viruses: the persistent problem of Potato virus Y |
Q31041135 | Biotic interactions and plant invasions |
Q113193911 | Both consumptive and non-consumptive effects of predators impact mosquito populations and have implications for disease transmission |
Q114746870 | Cereal species mixtures: an ancient practice with potential for climate resilience. A review |
Q56930207 | Characteristics and drivers of plant virus community spatial patterns in US west coast grasslands |
Q47551312 | Coinfection Timing Drives Host Population Dynamics through Changes in Virulence. |
Q91638468 | Coinfections by noninteracting pathogens are not independent and require new tests of interaction |
Q37062047 | Consumers indirectly increase infection risk in grassland food webs |
Q57288452 | Context-dependent interactions between pathogens and a mutualist affect pathogen fitness and mutualist benefits to hosts |
Q58244730 | Crop Rotation Patterns Among New York Potato Growers: |
Q51707812 | Direct and interactive effects of enemies and mutualists on plant performance: a meta-analysis. |
Q33404384 | Diversity and composition of viral communities: coinfection of barley and cereal yellow dwarf viruses in California grasslands |
Q56782464 | ENEMY RELEASE? AN EXPERIMENT WITH CONGENERIC PLANT PAIRS AND DIVERSE ABOVE- AND BELOWGROUND ENEMIES |
Q57068306 | Earth Stewardship: science for action to sustain the human-earth system |
Q113758544 | Ecology of Yellow Dwarf Viruses in Crops and Grasslands: Interactions in the Context of Climate Change |
Q28749429 | Ecosystem services and agriculture: tradeoffs and synergies |
Q50050852 | Integrating the social, hydrological and ecological dimensions of freshwater health: The Freshwater Health Index |
Q92205890 | Inter- and intraspecific diversity of food legumes among households and communities in Ethiopia |
Q57115488 | JURISDICTION OVER ENDANGERED SPECIES' HABITAT: THE IMPACTS OF PEOPLE AND PROPERTY ON RECOVERY PLANNING |
Q101123873 | Landscape-dependent effects of varietal mixtures on insect pest control and implications for farmer profits |
Q51630370 | Local context drives infection of grasses by vector-borne generalist viruses. |
Q92567962 | Modeling Approach Influences Dynamics of a Vector-Borne Pathogen System |
Q40189455 | Modeling Virus Coinfection to Inform Management of Maize Lethal Necrosis in Kenya |
Q35071630 | Non-random biodiversity loss underlies predictable increases in viral disease prevalence |
Q35946868 | Pathogen spillover in disease epidemics |
Q52877724 | Plant Community Diversity, Herbivore Movement, and an Insect-Transmitted Disease of Maize. |
Q30885446 | Release of invasive plants from fungal and viral pathogens |
Q34611379 | Richness and composition of niche-assembled viral pathogen communities |
Q39107274 | Risk assessment of genetically engineered crops: fitness effects of virus-resistance transgenes in wild Cucurbita pepo |
Q98291455 | The Role of Vector Trait Variation in Vector-Borne Disease Dynamics |
Q46171307 | The community ecology of barley/cereal yellow dwarf viruses in Western US grasslands |
Q38366497 | The community ecology of pathogens: coinfection, coexistence and community composition |
Q44514321 | The role of viruses in biological invasions: friend or foe? |
Q40181395 | Vector population growth and condition-dependent movement drive the spread of plant pathogens |
Q51631922 | Viral diversity and prevalence gradients in North American Pacific Coast grasslands. |
Q100940378 | Viral infection can reduce the net nitrogen inputs of legume break crops and cover crops |
Alison Power | wikipedia | |
Alison Power | wikipedia | |
Елісон Дж. Павер | wikipedia |
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