Add to ORKGA series of experiments using monospecific and mixed nematode populations in artificial soil mixtures or in natural soils in the presence of suitable host plants showed that there were significant differences in the survival and multiplication of nematodes in different soils. The factors in soil which affect nematode populations are granule composition, soil structure and moisture retention capacity. 'dagger
The Diaprepes root weevil Diaprepes abbreviatus (L.) is a major pest of citrus, ornamentals, and veg...
Plant parasitic nematodes have been identified as a major problem to wheat (Triticum aestivum L.) pr...
Soil nematodes were extracted from litter bags collected from canopy gradient sites as part of Reyno...
Four similar, agricultural soils with distinct nematode communities were used to determine the exten...
Two similar, sandy loam soils from the same geographical region but with distinct nematode communiti...
Established nematode populations are very persistent in the soil. It is known that they need suffici...
The effect of soil characteristics on infectivity of Heterorhabditis sp., strain PRF-21 isolated fro...
This study was conducted to determine the effect of land use and intensity of land cultivation on th...
The interaction of soil moisture and incubation time on the survival and subsequent reproductive pot...
Soil nematodes were censused at 99 forested sites in southern Mississippi, USA to examine the impact...
A 2-year study was conducted in the greenhouse to determine the effects of three soil types ( sand, ...
To test the hypothesis that the structure of plant parasitic nematode communities is affected by soi...
Original research confirms a significant impact of abiotic factors, such as soil type and physicoche...
The largest faunistic similarity of nematodes was found in soils sampled in coniferous nurseries whe...
Soil life is highly diverse, and ecologically intricate due to myriad of biotic interactions that ta...
The Diaprepes root weevil Diaprepes abbreviatus (L.) is a major pest of citrus, ornamentals, and veg...
Plant parasitic nematodes have been identified as a major problem to wheat (Triticum aestivum L.) pr...
Soil nematodes were extracted from litter bags collected from canopy gradient sites as part of Reyno...
Four similar, agricultural soils with distinct nematode communities were used to determine the exten...
Two similar, sandy loam soils from the same geographical region but with distinct nematode communiti...
Established nematode populations are very persistent in the soil. It is known that they need suffici...
The effect of soil characteristics on infectivity of Heterorhabditis sp., strain PRF-21 isolated fro...
This study was conducted to determine the effect of land use and intensity of land cultivation on th...
The interaction of soil moisture and incubation time on the survival and subsequent reproductive pot...
Soil nematodes were censused at 99 forested sites in southern Mississippi, USA to examine the impact...
A 2-year study was conducted in the greenhouse to determine the effects of three soil types ( sand, ...
To test the hypothesis that the structure of plant parasitic nematode communities is affected by soi...
Original research confirms a significant impact of abiotic factors, such as soil type and physicoche...
The largest faunistic similarity of nematodes was found in soils sampled in coniferous nurseries whe...
Soil life is highly diverse, and ecologically intricate due to myriad of biotic interactions that ta...
The Diaprepes root weevil Diaprepes abbreviatus (L.) is a major pest of citrus, ornamentals, and veg...
Plant parasitic nematodes have been identified as a major problem to wheat (Triticum aestivum L.) pr...
Soil nematodes were extracted from litter bags collected from canopy gradient sites as part of Reyno...