02191nas a2200241 4500008004100000245006300041210006100104300001300165490000800178520150400186653003001690653000901720653001801729653001601747653001101763653001501774100002001789700001601809700002001825700001801845700002001863856006601883 2014 eng d00aPlant-virus interactions and the agro-ecological interface0 aPlantvirus interactions and the agroecological interface a529 -5370 v1383 a
As a result of human activities, an ever-increasing portion of Earth’s natural landscapes now lie adjacent to agricultural lands. This border between wild and agricultural communities represents an agro-ecological interface, which may be populated with crop plants, weeds of crop systems, and non-crop plants that vary from exotic to native in origin. Plant viruses are important components of the agro-ecological interface because of their ubiquity, dispersal by arthropod vectors, and ability to colonize both crop and wild species. Here we provide an overview of research on plant-virus dynamics across this interface and suggest three research priorities: (1) an increased effort to identify and describe plant virus diversity and distribution in its entirety across agricultural and ecological boundaries; (2) multi-scale studies of virus transmission to develop predictive power in estimating virus propagation across landscapes; and (3) quantitative evaluation of the influence of viruses on plant fitness and populations in environmental contexts beyond crop fields. We close by emphasizing that agro-ecological interfaces are dynamic, influenced by the human-mediated redistribution of plants, vectors, and viruses around the world, climate change, and the development of new crops. Consideration of virus interactions within these environmentally complex systems promises new insight into virus, plant, and vector dynamics from molecular mechanisms to ecological consequences.
10aAgro-ecological interface10aCrop10aPlant fitness10aPlant virus10aVector10aWild plant1 aAlexander, H.M.1 aMauck, K.E.1 aWhitfield, A.E.1 aGarrett, K.A.1 aMalmstrom, C.M. uhttps://link.springer.com/article/10.1007%2Fs10658-013-0317-1