Neighbors, Drought, and Nitrogen Application Affect the Root Morphological Plasticity of Dalbergia odorifera

• Published in: Frontiers in plant science Vol. 12; p. 650616
• Main Authors: Xiang, Li-Shan, Miao, Ling-Feng, Yang, Fan
• Format: Journal Article
• Language: English
• Published: Switzerland Frontiers Media S.A 08.04.2021
• Subjects: nitrogen contents; Plant Science; relative competitiveness; root morphological plasticity; root nodules; root system contact model; root system isolated model; root system isolated model; nitrogen contents; root morphological plasticity; relative competitiveness; root nodules; root system contact model
• ISSN: 1664-462X; 1664-462X
• DOI: 10.3389/fpls.2021.650616

In forest systems, neighbor-induced root morphological plasticity (RMP) is species specific and environment dependent. However, related studies on leguminous woody trees remain sparse. The objectives of this study were to evaluate the root morphological response of the leguminous woody T. Chen to different N-fixing niche neighbors under models of root system contact and isolation and to evaluate whether such response can be modified by drought or the application of nitrogen (N). The relationship between root morphology and the relative competitiveness of the whole plantlet was also assessed. plantlets from the woody Leguminosae family were used as target species and were grown with either identical N-fixing niche , the heterogeneous but con-leguminous , or the non-leguminous . All plants were grown under two water conditions (100% and 30% field capacity) and two N treatments (no N application and N application). Two planting models (root system contact in Experiment 1, root system isolation in Experiment 2) were applied to neighboring plantlets. The RMP of was assessed based on root morphology, root system classification, root nodules, and RMP-related indices. The growth of was estimated based on the relative growth ratio, net assimilation rate, and leaf N content. The relative competitiveness of the whole plantlet was evaluated through relative yield. The results of Experiment 1 showed that had different RMP responses to a different N-fixing niche neighbor with root system contact. The RMP of was promoted by a different N-fixing niche neighbor under conditions of drought or N deficiency. Drought improved the RMP of exposed to a different N-fixing niche neighbor. N application converted the promoting effect of on RMP to an inhibitory effect under well-watered conditions. Experiment 2 showed that belowground interaction with a different N-fixing niche neighbor may be the only way to influence RMP, as effects of aboveground interaction were negligible. Finally, correlation analysis showed that neighbor-induced RMP might predict the relative competitiveness of the whole plantlet under conditions of drought or N deficiency. These findings highlight the influences of neighbors, drought, and N application on the RMP of and contribute to understanding neighbor-induced dynamic changes in the root traits of leguminous woody species in forest systems in the context of climate change.