麻豆淫院

In a published in the New Phytologist, researchers from the Xishuangbanna Tropical Botanical Garden (XTBG) of the Chinese Academy of Sciences synthesized decades of research on fungicides through a global meta-analysis, and they revealed the complex and varied effects of fungicides on wild plant at species and community levels.

Researchers conducted a systematic literature review and meta-analysis of published manipulative experiments involving fungicide treatments. By examining data from 369 experiments across 62 scientific papers, they demonstrated that fungal pathogens play a critical role in maintaining plant diversity.

Researchers found that fungicide application significantly improved native plant species survival and increased overall community biomass, but it led to a decline in plant community diversity, an effect similar to that observed when vertebrate herbivores are excluded. Surprisingly, no significant overall effect on plant growth was detected, despite clear benefits to survival and community productivity.

The large variation in fungicides' effects on plant growth was likely due to which plant species differed in their accumulation of both pathogenic and beneficial fungi. Commercial fungicides varied in their specificity toward different fungal groups, which may also affect the results. The limited response observed in non-native species, though based on a small sample, aligned with the hypothesis that these plants experienced reduced pressure from local fungal pathogens.

In addition, researchers found no consistent support for the Latitudinal Biotic Interaction Hypothesis (LBIH), which posits stronger species interactions in tropical regions. They also found that the effects of fungicides did not vary with latitude.

These findings underscore the essential role fungal pathogens play in sustaining natural plant community diversity. The increased survival and biomass observed following fungicide use indicate that on average, pathogenic fungi exert stronger suppressive effects on plants than the benefits provided by mutualistic fungi.

Researchers advocate addressing major geographical data gaps, standardizing experimental methods for better cross-study comparisons, and incorporating molecular techniques to clarify how fungicides influence both target pathogens and non-target beneficial fungi.