4.7 Article

Carbon allocation patterns in forbs and grasses differ in responses to mowing and nitrogen fertilization in a temperate grassland

Journal

ECOLOGICAL INDICATORS
Volume 135, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.ecolind.2022.108588

Keywords

Allometric allocation theory; Carbon allocation and accumulation; Forbs and grasses; Mowing; Nitrogen enrichment; Temperate grasslands

Funding

  1. National Natural Science Foundation of China [31830011, 31870457]

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The study found that mowing and N fertilization have different effects on C allocation priorities and C accumulation in different plant functional groups and species in a temperate grassland. Mowing enhances C accumulation in forbs, while N fertilization enhances C accumulation in grasses. These contrasting responses may explain the observation that mowing and N fertilization have no impacts on C accumulation at the community level.
Mowing has been a routine grassland management with consequences of removing nutrients from the nitrogen (N)-limited grassland ecosystems. Carbon (C) allocation plays important roles in plant growth and responses to changing environments. Despite studies on interactions between N fertilization and mowing, no studies have specifically focused on responses of C allocation priorities to N fertilization and mowing at plant functional groups and individual species levels. In the present study, 13C isotope labelling was used to trace the effects of 3year of N fertilization and mowing on the fate of newly-assimilated C (accumulation and allocation priorities) at community, functional group and species levels in a temperate grassland of northern China. We applied the allometric allocation theory to explain the differential C allocation patterns among the organs of different species. Mowing and N fertilization for three consecutive years had no impacts on accumulation of newlyassimilated C at community level. However, C allocation in forbs and grasses differed markedly in their responses to mowing and N fertilization, such that mowing enhanced C accumulation in forbs and N fertilization enhanced C accumulation in grasses. In addition, mowing increased 13C allocation to stolon of forb species, thus facilitating their propagation. Moreover, N fertilization increased 13C allocation to rhizomes of grass species, ensuring clonal grasses to occupy a new niche. We demonstrated that grasses and forbs in a temperate grassland evolved different strategies of C allocation in response to mowing and N fertilization. The contrasting responses may account for the observation that N fertilization and mowing had no impacts on C accumulation at the community level. Our results highlight the necessity to monitor C allocation at functional group and dominant plant species levels, rather than at community level of grasslands exclusively for mechanistically understanding how grasslands respond to mowing and N fertilization.

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