Plant diseases cause losses of approximately 16% globally. Thus, management measures
must be implemented to mitigate losses and guarantee food production. In addition to …

Chemical nematicide is the most common method of controlling plant-parasitic nematodes
(PPN). Given the negative impact of chemical nematicides on the environment and …

Intensification of production across agriculture, horticulture, forestry, biodiversity restoration
and other plant-related industries is urgently needed to meet expanding demand for food …

Given the large yield losses attributed to plant-parasitic nematodes and the limited
availability of sustainable control strategies, new plant-parasitic nematode control strategies …

The increasing demand for agricultural products can be met by maximizing production
potential and reducing crop losses caused by common plant-parasitic nematodes. Chemical …

Developing control measures of plant-parasitic nematodes (PPNs) rank high as they cause
big crop losses globally. The growing awareness of numerous unsafe chemical nematicides …

Nematodes as plant pathogens adversely affect food, fiber, and biofuels production by
causing plant diseases. A variety of chemical nematicides are being applied to soil, seeds …

Crop plants should be resilient to climatic factors in order to feed ever-increasing
populations. Plants have developed stress-responsive mechanisms by changing their …

Root-knot nematodes (RKNs) are notorious plant-parasitic nematodes first recorded in 1855
in cucumber plants. They are microscopic, obligate endoparasites that cause severe losses …

Biotic stresses represent a serious threat to rice production to meet global food demand and
thus pose a major challenge for scientists, who need to understand the intricate defense …