Versions Compared

Old Version 2

changes.mady.by.user Gangsheng Wang (Unlicensed)

Saved on

compared with

New Version Current

changes.mady.by.user Renata McCoy

Saved on

Key

  • This line was added.
  • This line was removed.
  • Formatting was changed.
Page Properties
Peter Thornton, Xiaojuan Yang, Fengming Yuan, Guoping Tang
1.Poster TitleDevelopment of Microbe-Enabled SOM Decomposition and Methane Modules through CLM-PFLOTRAN InterfaceIntegration of prognostic phosphorus cycle dynamics into ACME
2.AuthorsXiaojuan YangPeter Thornton, Daniel RicciutoGangsheng Wang (Unlicensed), Xiaoying Shi, and Forrest M. Hoffman (Unlicensed)
3.GroupLand
4.ExperimentBGC
5.Poster CategoryProblem/SolutionEarly results
6.Submission Typeposter

 

Abstract

...

7.Poster LinkACME_Results_Poster_YANG_May01.pdf

Very few Earth System Models (ESMs) has considered phosphorus (P) as a limiting nutrient, although P limitation is widespread and is most pronounced in highly productive lowland tropical forests. In this task (land task M3.12) we will further develop and improve the existing CLM4-CNP model and integrate the improved prognostic P cycle model into the ACME land model. The objective is to examine how the inclusion of prognostic phosphorus (P) cycle affects carbon-climate feedbacks using fully coupled simulations. Here we will present results from the offline global CLM4-CNP simulations to show the role of P in affecting ecosystem responses to changes in atmospheric CO2 and climate.  We will also present some preliminary results from the site-level simulations using P-enabled ACME land model.