https://zihuiwang.netlify.app/tag/insect-herbivore/Insect herbivoreWowchemy (https://wowchemy.com)en-usTue, 18 Apr 2023 00:00:00 +0000https://zihuiwang.netlify.app/media/icon_hu0b7a4cb9992c9ac0e91bd28ffd38dd00_9727_512x512_fill_lanczos_center_3.pnghttps://zihuiwang.netlify.app/tag/insect-herbivore/https://zihuiwang.netlify.app/project/insects/Tue, 18 Apr 2023 00:00:00 +0000https://zihuiwang.netlify.app/project/insects/<p>I am captivated by the phenomenon that most species in a community are rare and rare species are able to peacefully coexist with abundant species to make Earth a diverse planet. What mechanisms cause the rarity and commonness and why rare species can persist without being competitively excluded by common species? <figure > <div class="d-flex justify-content-center"> <div class="w-100" ><img alt="half-size image" srcset=" /project/insects/p1_hu5f82b8863968d716d2465155fa444d84_718419_fff58c63c059367758409d1d0986d8bf.webp 400w, /project/insects/p1_hu5f82b8863968d716d2465155fa444d84_718419_31d8fc401030dcf13f0a76379e0687ed.webp 760w, /project/insects/p1_hu5f82b8863968d716d2465155fa444d84_718419_1200x1200_fit_q75_h2_lanczos_3.webp 1200w" src="https://zihuiwang.netlify.app/project/insects/p1_hu5f82b8863968d716d2465155fa444d84_718419_fff58c63c059367758409d1d0986d8bf.webp" width="754" height="450" loading="lazy" data-zoomable /></div> </div></figure> In forest ecosystems, specialized nature enemies such as insect herbivore and fungal pathogens can aggregate in areas with high conspecific plant density, leading to elevated seedling mortality—a phenomenon known as <a href="https://www.nature.com/articles/nature12911" target="_blank" rel="noopener">negative density dependence</a>. This suggests that when a plant species becomes abundant, enemy pressures increase, acting as a check to prevent it from excluding other species. Conversely, when a plant species becomes rare, enemy pressures decrease to avoid its extinction. Through this mechanism, nature enemies contribute to the coexistence of plant species. <figure > <div class="d-flex justify-content-center"> <div class="w-100" ><img alt="half-size image" srcset=" /project/insects/p2_huf0fd38044aea5fff1e54fe8105bddf80_191126_f54a5c530270c570506cbffb81b3b93b.webp 400w, /project/insects/p2_huf0fd38044aea5fff1e54fe8105bddf80_191126_817eb28275f72f1cc85bd7a86a96cd66.webp 760w, /project/insects/p2_huf0fd38044aea5fff1e54fe8105bddf80_191126_1200x1200_fit_q75_h2_lanczos_3.webp 1200w" src="https://zihuiwang.netlify.app/project/insects/p2_huf0fd38044aea5fff1e54fe8105bddf80_191126_f54a5c530270c570506cbffb81b3b93b.webp" width="760" height="464" loading="lazy" data-zoomable /></div> </div></figure> Recent studies have revealed that not all plant species exhibit this enemy-driven negative density dependence. This raises new questions about the interspecific variation in the enemy-induced negative density dependence and its applications for species coexistence. To explore this question, I conducted a field survey of herbivory pressure of saplings in three stem-mapped forest plots in China. <figure > <div class="d-flex justify-content-center"> <div class="w-100" ><img alt="half-size image" srcset=" /project/insects/p4_hub8f9194197d92e81f41c7d1439d48562_439064_fb9465d7812978b21c636b573de8b2c4.webp 400w, /project/insects/p4_hub8f9194197d92e81f41c7d1439d48562_439064_9b3808cc8ae8fce9646d2ba60ca43d9d.webp 760w, /project/insects/p4_hub8f9194197d92e81f41c7d1439d48562_439064_1200x1200_fit_q75_h2_lanczos_3.webp 1200w" src="https://zihuiwang.netlify.app/project/insects/p4_hub8f9194197d92e81f41c7d1439d48562_439064_fb9465d7812978b21c636b573de8b2c4.webp" width="702" height="441" loading="lazy" data-zoomable /></div> </div></figure> Our findings indicated that herbivore pressures increased with conspecific plant density for rarer plant species, indicating the presence of density-dependent herbivory. On the other hand, common species experienced a negative relationship between herbivore pressure and conspecific density, potentially reflecting herbivore limitations (i.e., herbivores reducing conspecific plant density). This discovery implied that density-dependent herbivores may restrict species abundance, leading to species rarity, while herbivore limitations suppress the predominance of common species and prevent species exclusion.</p>