Interplay between Plant Functional Traits and Soil Carbon Sequestration under Ambient and Elevated CO2 Levels
Abstract
Unique plant functional traits (morpho-physio-anatomical) may respond to novel environmental conditions to counterbalance elevated carbon dioxide (eCO(2)) concentrations. Utilizing CO2, plants produce photoassimilates (carbohydrates). A mechanistic understanding of partitioning and translocation of carbon/photoassimilates into different plant parts and soils under ambient and eCO(2) is required. In this study, we examine and present the intrinsic relationship between plant functional traits and eCO(2) and seek answers to (i) how do plant functional traits (morpho-physio-anatomical features) affect C storage and partitioning under ambient and eCO(2) in different plant parts? (ii) How do plant functional traits influence C transfer to the soil and rhizosphere services? Our study suggests that morpho-physio-anatomical features are interlinked, and under eCO(2), plant functional traits influence the quantity of C accumulation inside the plant biomass, its potential translocation to different plant parts, and to the soil. The availability of additional photoassimilates aids in increasing the above- and belowground growth of plants. Moreover, plants may retain a predisposition to build thick leaves due to reduced specific leaf area, thicker palisade tissue, and higher palisade/sponge tissue thickness. eCO(2) and soil-available N can alter root anatomy, the release of metabolites, and root respiration, impacting potential carbon transfer to the soil.
Más información
Título según WOS: | Interplay between Plant Functional Traits and Soil Carbon Sequestration under Ambient and Elevated CO2 Levels |
Título de la Revista: | SUSTAINABILITY |
Volumen: | 15 |
Número: | 9 |
Editorial: | MDPI |
Fecha de publicación: | 2023 |
DOI: |
10.3390/su15097584 |
Notas: | ISI |