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Carbon isotope trends across a century of herbarium specimens suggest CO 2 fertilization of C 4 grasses.

Isa Del ToroMadelon F CaseAllison Tyler KarpJasper A SlingsbyAnn Carla Staver
Published in: The New phytologist (2024)
Increasing atmospheric CO 2 is changing the dynamics of tropical savanna vegetation. C 3 trees and grasses are known to experience CO 2 fertilization, whereas responses to CO 2 by C 4 grasses are more ambiguous. Here, we sample stable carbon isotope trends in herbarium collections of South African C 4 and C 3 grasses to reconstruct 13 C discrimination. We found that C 3 grasses showed no trends in 13 C discrimination over the past century but that C 4 grasses increased their 13 C discrimination through time, especially since 1950. These changes were most strongly linked to changes in atmospheric CO 2 rather than to trends in rainfall climatology or temperature. Combined with previously published evidence that grass biomass has increased in C 4 -dominated savannas, these trends suggest that increasing water-use efficiency due to CO 2 fertilization may be changing C 4 plant-water relations. CO 2 fertilization of C 4 grasses may thus be a neglected pathway for anthropogenic global change in tropical savanna ecosystems.
Keyphrases
  • climate change
  • randomized controlled trial
  • systematic review
  • wastewater treatment
  • high resolution
  • mass spectrometry
  • air pollution