Guddappa;Mahalingappa;Devagiri;. Anil;Vadlapudi Kumar;Khaple;Siddagangaiah;. Mohan;Puttanaik;Venkateshamurthy;Sanjay;Tomar;Arkalgud;Nagaraja;Arunkumar;. Geeta;Josh

Canopy gaps;Gap characteristics;Central Western Ghats;Tropical evergreen forests;Species diversity;Regeneration;PHASE REGENERATION;RAIN-FOREST;TREEFALL GAPS;SIZE;VEGETATION;DISTURBANCE;DYNAMICS;LIGHT;RECRUITMENT;NORT

Canopy gaps play a significant role in maintaining structure and composition of tropical forests. This study was carried out in tropical evergreen forests of central Western Ghats in India to understand the influence of canopy gap size and the relationship of gap regime attributes to diversity measures and regeneration. The average gap size in the study area was found to be 396 m(2) and around half of gaps were 4-8 years old. Gaps created by natural single tree fall were smaller in size but significantly higher in number. Diversity and regeneration of woody species were compared with canopy gaps and intact vegetation. Species richness and diversity was higher in gaps than in intact vegetation. Macaranga peltata, a shade intolerant species dominated gaps while intact vegetation was dominated by shade tolerant Kingiodendron pinnatum. Gap size significantly influenced species diversity and regeneration. Gap area and age were significantly and negatively correlated with diversity measures but positively correlated with regeneration. Among all the attributes of gaps, regeneration was significantly positively correlated with light intensity. Gaps maintained species diversity and favored regeneration of woody species. In addition to gap size and age, other gap ecological attributes also affected species diversity and regeneration.