Reconstructing disturbances and their biogeochemical consequences over multiple timescales

Kendra K. McLauchlan; Philip E. Higuera; Daniel G. Gavin; Steven S. Perakis; Michelle C. Mack; Heather Alexander; John Battles; Franco Biondi; Brian Buma; Daniele Colombaroli; Sara K. Enders; Daniel R. Engstrom; Feng Sheng Hu; Jennifer R. Marlon; John Marshall; Matt McGlone; Jesse L. Morris; Lucas E. Nave; Bryan Shuman; Erica A.H. Smithwick; Dunia H. Urrego; David A. Wardle; Christopher J. Williams; Joseph J. Williams

doi:10.1093/biosci/bit017

Reconstructing disturbances and their biogeochemical consequences over multiple timescales

BioScience

By: Kendra K. McLauchlan, Philip E. Higuera, Daniel G. Gavin, Steven S. Perakis, Michelle C. Mack, Heather Alexander, John Battles, Franco Biondi, Brian Buma, Daniele Colombaroli, Sara K. Enders, Daniel R. Engstrom, Feng Sheng Hu, Jennifer R. Marlon, John Marshall, Matt McGlone, Jesse L. Morris, Lucas E. Nave, Bryan Shuman, Erica A.H. Smithwick, Dunia H. Urrego, David A. Wardle, Christopher J. Williams, and Joseph J. Williams

https://doi.org/10.1093/biosci/bit017

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Abstract

Ongoing changes in disturbance regimes are predicted to cause acute changes in ecosystem structure and function in the coming decades, but many aspects of these predictions are uncertain. A key challenge is to improve the predictability of postdisturbance biogeochemical trajectories at the ecosystem level. Ecosystem ecologists and paleoecologists have generated complementary data sets about disturbance (type, severity, frequency) and ecosystem response (net primary productivity, nutrient cycling) spanning decadal to millennial timescales. Here, we take the first steps toward a full integration of these data sets by reviewing how disturbances are reconstructed using dendrochronological and sedimentary archives and by summarizing the conceptual frameworks for carbon, nitrogen, and hydrologic responses to disturbances. Key research priorities include further development of paleoecological techniques that reconstruct both disturbances and terrestrial ecosystem dynamics. In addition, mechanistic detail from disturbance experiments, long-term observations, and chronosequences can help increase the understanding of ecosystem resilience.

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Reconstructing disturbances and their biogeochemical consequences over multiple timescales
Series title	BioScience
DOI	10.1093/biosci/bit017
Volume	64
Issue	2
Year Published	2014
Language	English
Publisher	American Institute of Biological Sciences
Contributing office(s)	Forest and Rangeland Ecosystem Science Center
Description	12 p.
Larger Work Type	Article
Larger Work Subtype	Journal Article
Larger Work Title	BioScience
First page	105
Last page	116
Google Analytic Metrics	Metrics page