The warming world and it’s impact on phytopathogens and insects
Tamalika Kumari, Milan Ghosh and Ria Mukhopadhyay
Global warming, driven by human activities releasing greenhouse gases, has significant effects on plant pathogens and insect populations, altering the dynamics of ecosystems and agricultural systems. Higher temperatures can accelerate the development of many plant pathogens, such as fungi and bacteria, leading to increased disease incidence. Warmer conditions can extend the growing seasons of these pathogens, allowing them to reproduce more frequently. This can devastate crops and natural vegetation, impacting food security and ecosystem stability. Elevated carbon dioxide levels associated with global warming may favour some pathogen species over others, further exacerbating the problem.
Insect populations are also affected by global warming as temperature influences insect development rates, altering their life cycles and potentially leading to more generations within a single year. Furthermore, higher temperatures might affect insect behaviour, including feeding habits and migration patterns, potentially exposing plants to different pests or intensifying existing pest pressures. Shifts in climate can also disrupt the delicate balance between plant species and their associated insects, which often rely on temperature and timing for pollination. As plant-pollinator relationships become mismatched due to climate change, it can negatively impact both plant reproduction and biodiversity. The complex interplay of temperature, altered life cycles, and disrupted ecological relationships can lead to increased disease incidence, altered pest pressures, and ecosystem instability.
Tamalika Kumari, Milan Ghosh, Ria Mukhopadhyay. The warming world and it’s impact on phytopathogens and insects. Int J Res Agron 2024;7(4S):101-104. DOI: 10.33545/2618060X.2024.v7.i4Sb.534
