Differential responses of carbon and water vapor fluxes to climate among evergreen needleleaf forests in the USA Academic Article uri icon


  • 2016, Wagle et al. Introduction: Understanding the differences in carbon and water vapor fluxes of spatially distributed evergreen needleleaf forests (ENFs) is crucial for accurately estimating regional or global carbon and water budgets and when predicting the responses of ENFs to current and future climate. Methods: We compared the fluxes of ten AmeriFlux ENF sites to investigate cross-site variability in net ecosystem exchange of carbon (NEE), gross primary production (GPP), and evapotranspiration (ET). We used wavelet cross-correlation analysis to examine responses of NEE and ET to common climatic drivers over multiple timescales and also determined optimum values of air temperature (Ta) and vapor pressure deficit (VPD) for NEE and ET. Results: We found larger differences in the NEE spectra than in the ET spectra across sites, demonstrating that spatial (site-to-site) variability was larger for NEE than for ET. The NEE and ET were decoupled differently across ENF sites because the wavelet cospectra between ET and climate variables were similar at all sites, while the wavelet cospectra between NEE and climate variables were higher (i.e., closer coupling between NEE and climatic drivers) in semi-arid and Mediterranean sites than in other sites. Ecosystem water use efficiency (EWUE) based on annual GPP/ET ranged from 1.3 0.18 to 4.08 0.62g C mm1 ET, while EWUE based on annual net ecosystem production (NEP)/ET ranged from 0.06 0.04 to 1.02 0.16g C mm1 ET) among ENFs. Responses of NEE and ET to Ta varied across climatic zones. In particular, for ENF sites in semi-arid and Mediterranean climates, the maximum NEE and ET occurred at lower ranges of Ta than in sites with warm and humid summers. The optimum Ta and VPD values were higher for ET than for NEE, and ET was less sensitive to high values of Ta and VPD. Conclusions: Large spatial variability in carbon and water vapor fluxes among ENFs and large variations in responses of NEE and ET to major climate variables among climatic zones necessitate sub-plant functional type parameterization based on climatic zones to better represent climate sensitivity of ENFs and to reduce uncertainty in model predictions.

published proceedings

  • Ecological Processes

author list (cited authors)

  • Wagle, P., Xiao, X., Kolb, T. E., Law, B. E., Wharton, S., Monson, R. K., ... Gowda, P. H.

citation count

  • 8

complete list of authors

  • Wagle, Pradeep||Xiao, Xiangming||Kolb, Thomas E||Law, Beverly E||Wharton, Sonia||Monson, Russell K||Chen, Jiquan||Blanken, Peter D||Novick, Kimberly A||Dore, Sabina||Noormets, Asko||Gowda, Prasanna H

publication date

  • May 2016