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Evidence for the replication of a plant rhabdovirus in its arthropod mite vector. [PDF]
Kondo H +8 more
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A multiverse of trophic networks and coevolutionary trajectories among holoparasitic Orobanchaceae and their animal associates: a global perspective. [PDF]
Piwowarczyk R +12 more
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Laboratory evaluation of Beauveria bassiana strain ATCC74040 as a potential biocontrol agent of Aculops lycopersici. [PDF]
Sybilska A +3 more
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Mite Infestation Induces a Moderate Oxidative Stress in Short-Term Soybean Exposure. [PDF]
Wurlitzer WB +5 more
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A chromosome-level genome assembly of the flat mite Brevipalpus obovatus. [PDF]
He HD, Liang L, Jin DC, Yi TC.
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Evolution of Phytophagous Mites (ACARI)
Annual Review of Entomology, 1979higher plants, and to speculate on the factors that may have led to this. The evolution of myco phagy in the Acari is also considered to some extent, for two reasons. First, the ability to feed on higher plants arose through feeding on fungi in some mite groups, as is discussed below.
G W Krantz, E E Lindquist
exaly +2 more sources
Biological Control of Phytophagous Mites
2016Biological control is the beneficial action of predators, parasites, pathogens and competitors in controlling pests (including insects, mites, weeds and plant diseases) and their damage. Different species of phytophagous mites including spider mites, false spider mites, eriophyid or worm mites and bulb mites are naturally controlled by different ...
Manjit Singh Dhooria +1 more
exaly +2 more sources

