Climate and litter quality are primary drivers of terrestrial decomposition and, based on evidence from multisite experiments at regional and global scales, are universally factored into global decomposition models. In contrast, soil animals are considered key regulators of decomposition at local scales but their role at larger scales is unresolved. Soil animals are consequently excluded from global models of organic mineralization processes. Incomplete assessment of the roles of soil animals stems from the difficulties of manipulating invertebrate animals experimentally across large geographic gradients. This is compounded by deficient or inconsistent taxonomy. We report a global decomposition experiment to assess the importance of soil animals in C mineralization, in which a common grass litter substrate was exposed to natural decomposition in either control or reduced animal treatments across 30 sites distributed from 43°S to 68°N on six continents. Animals in the mesofaunal size range were recovered from the litter by Tullgren extraction and identified to common specifications, mostly at the ordinal level. The design of the trials enabled faunal contribution to be evaluated against abiotic parameters between sites. Soil animals increase decomposition rates in temperate and wet tropical climates, but have neutral effects where temperature or moisture constrain biological activity. Our findings highlight that faunal influences on decomposition are dependent on prevailing climatic conditions. We conclude that (1) inclusion of soil animals will improve the predictive capabilities of region- or biome-scale decomposition models, (2) soil animal influences on decomposition are important at the regional scale when attempting to predict global change scenarios, and (3) the statistical relationship between decomposition rates and climate, at the global scale, is robust against changes in soil faunal abundance and diversity.
A significant consequence of Typhoon Morakot in August 2009 was the production of vast volumes of driftwood in Pacific Asia. We have quantified the flux of this coarse woody debris (CWD) to the oceans from typhoontriggered landslides in Taiwan, where Morakot made landfall, by combining remote sensing (using FORMOSAT-2 imagery and aerial photography), analysis of forest biomass, and field observations. A total of 3.8-8.4 Tg CWD was transported to the oceans, carrying 1.8-4.0 Tg of organic carbon. In addition to the local effects on the marine and coastal environment from such a highly concentrated flux of carbon and nutrients, storm-driven mobilization of CWD may represent a significant, if infrequent, transfer of terrestrial biomass to the oceans. If the frequency of relatively rare, extreme storms such as Morakot increases in a changing climate, this transport mechanism may play an important role in feedbacks between global climate, storm intensity, and carbon cycling.
The litterfall in a subtropical broadleaf forest within the Fushan Experimental Forest in northeastern Taiwan was monitored for 9 years. Mean annual litterfall was very sensitive to typhoon frequency and intensity, ranging from 3 to 11 Mg·ha -1 ·year -1 . Litterfall was significantly higher in years with strong typhoons than in years without typhoons, and the number of strong typhoons explained 82% of interannual variation in litterfall. Nutrient-use efficiency (dry mass/nutrients in litterfall) was high for N, but low for P compared with other tropical forests. This result supports the idea that the study forest is P limited but not N limited. Nutrient loss via litterfall represents a large percentage of aboveground biomass, especially during years with strong typhoons (e.g., 19%-41%, 15%-40%, 5%-12%, for N, P, and K, respectively). Forests that experience infrequent wind disturbance (e.g., temperate or boreal forests) can gradually regain any lost nutrients prior to the next disturbance; this is different from the situation observed in the Fushan Experimental Forest. At Fu-shan the pattern of not responding to typhoons with a flush of new growth appears to be an adaptation to the frequency with which there are multiple typhoons affecting the forest in a single year. Nutrient loss in litterfall caused by frequent typhoon disturbances appears to limit tree growth and contributes to the very low canopy height of the Fushan Experimental Forest.Résumé : La chute de litière dans une forêt décidue subtropicale située dans la forêt expérimentale de Fushan dans le Nord-Est de Taiwan a été suivie pendant 9 ans. La chute annuelle moyenne de litière était très sensible à l'intensité et la fréquence des typhons, variant de 3 à 11 Mg·ha -1 ·an -1 . La chute de litière était significativement plus élevée lors des années avec de violents typhons que lors des années sans typhons. Le nombre de typhons violents expliquait 82 % de la variation inter annuelle dans la chute de litière. L'efficacité d'utilisation des nutriments (masse sèche/nutriments dans la chute de litière) était élevée pour N mais faible pour P comparativement à d'autres forêts tropicales. Ce résultat supporte l'idée que P est un facteur limitant dans la forêt sous étude mais que N ne l'est pas. La perte de nutriments via la chute de litière représente un important pourcentage de la biomasse épigée, particulièrement lors des années avec de violents typhons (p. ex. respectivement 19-41 %, 15-40 % et 5-12 % pour N, P et K). Les forêts qui ne sont pas fré-quemment soumises à des perturbations par le vent (p. ex. les forêts tempérées ou boréales) peuvent graduellement retrouver les nutriments perdus avant que survienne une autre perturbation; cela est différent de la situation observée dans la forêt expérimentale de Fushan. À Fu-shan, le fait de ne pas produire de nouvelles pousses à la suite d'un typhon semble être une adaptation à la fréquence avec laquelle de multiples typhons affectent la forêt au cours d'une même année. La perte de nutriments causée par de fréqu...
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