The Grassland Society of Southern Africa (GSSA) is involved and concerned with the science and practice of range and pasture management. This broad field involves primarily the use and conservation of natural resources. It encompasses applied fields such as livestock production, wildlife management, nature conservation, water catchment management and range and mine-dump rehabilitation. The disciplines include, amongst others, ecology, botany zoology, range and pasture science, animal science, soil science and genetics. This collection includes journal articles from the African Journal of Range and Forage Science as well as related articles and reports from throughout the Southern African region.
Plasticity in leaf and stem nutrient resorption proficiency potentially reinforces plant-soil feedbacks and microscale heterogeneity in a semi-arid grassland
Journal of Ecology
1. The potential resorption of substantial amounts of nutrients from all vegetative organs of plants has large implications for the plant nutrient economy and for biogeochemical cycles. So far, most studies have focused on leaf nutrient resorption only. Besides, while evidence is growing that soil fertility changes impact on leaf nutrient resorption at a large spatial scale, hardly anything is known of such coupling at a small spatial scale. 2. Here we show that nitrogen (N) in culms of four dominant grasses of northern Chinese steppes contributed from 17% to 36% to the total pool of N resorbed from above-ground senescing parts and accounted for 25% of above-ground litter N. These results demonstrate the tremendous importance of non-leaf organs for plant nutrient economy and ecosystem nutrient cycling. 3. More importantly, we found that even microscale variations in resource availability (soil inorganic N, soil moisture) can strongly impact on both leaf and culm N resorption proficiencies (RP) and absolute leaf N resorption of grasses. Moreover, plasticity was responsible for 86% and 43% of within-site variance in leaf and culm RP, respectively, with the remainder owing to interspecific differences between the four grasses. These results imply a much larger role of plant plasticity in driving ecosystem functioning than previously assumed. 4. Synthesis.Our results suggest that plant litter quality varies even at the microscale with heterogeneity in soil resource availability, thereby potentially feeding back on soil properties and sustaining microscale soil fertility patchiness. In parallel, plants of more fertile patches resorbed a greater absolute amount of N, likely benefiting their competitive and reproductive abilities.
Name of Journal:
Journal of Ecology