Stand age, disturbance history and the temporal stability of forest production

• Upper Great Lakes forests exhibit high overall production temporal stability. • Production temporal stability varied by >2-fold among stands. • More severely disturbed forests displayed greater temporal production stability. • Stand structure and leaf traits were inconsistent predictors of temp...
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Autor*in:	Wales, Shea B. [verfasserIn] Kreider, Mark R. Atkins, Jeff Hulshof, Catherine M. Fahey, Robert T. Nave, Lucas E. Nadelhoffer, Knute J. Gough, Christopher M.

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2020

Schlagwörter:	Clearcut Leaf morphology Leaf mass area Leaf physiology Stability Net primary production Diversity Late successional Fluorescence Complexity Succession Disturbance Fire Structure

Übergeordnetes Werk:	Enthalten in: A new phenomenological constitutive model for hot tensile deformation behaviors of a typical Al–Cu–Mg alloy - Lin, Y.C. ELSEVIER, 2013, Amsterdam [u.a.]
Übergeordnetes Werk:	volume:460 ; year:2020 ; day:15 ; month:03 ; pages:0

Links:	Volltext

DOI / URN:	10.1016/j.foreco.2020.117865

Katalog-ID:	ELV049529722

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author	Wales, Shea B.
spellingShingle	Wales, Shea B. Elsevier Clearcut Elsevier Leaf morphology Elsevier Leaf mass area Elsevier Leaf physiology Elsevier Stability Elsevier Net primary production Elsevier Diversity Elsevier Late successional Elsevier Fluorescence Elsevier Complexity Elsevier Succession Elsevier Disturbance Elsevier Fire Elsevier Structure Stand age, disturbance history and the temporal stability of forest production
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topic_title	Stand age, disturbance history and the temporal stability of forest production Clearcut Elsevier Leaf morphology Elsevier Leaf mass area Elsevier Leaf physiology Elsevier Stability Elsevier Net primary production Elsevier Diversity Elsevier Late successional Elsevier Fluorescence Elsevier Complexity Elsevier Succession Elsevier Disturbance Elsevier Fire Elsevier Structure Elsevier
topic	Elsevier Clearcut Elsevier Leaf morphology Elsevier Leaf mass area Elsevier Leaf physiology Elsevier Stability Elsevier Net primary production Elsevier Diversity Elsevier Late successional Elsevier Fluorescence Elsevier Complexity Elsevier Succession Elsevier Disturbance Elsevier Fire Elsevier Structure
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title_auth	Stand age, disturbance history and the temporal stability of forest production
abstract	• Upper Great Lakes forests exhibit high overall production temporal stability. • Production temporal stability varied by >2-fold among stands. • More severely disturbed forests displayed greater temporal production stability. • Stand structure and leaf traits were inconsistent predictors of temporal stability. • Properties conferring greater production rates and temporal stability may differ.
abstractGer	• Upper Great Lakes forests exhibit high overall production temporal stability. • Production temporal stability varied by >2-fold among stands. • More severely disturbed forests displayed greater temporal production stability. • Stand structure and leaf traits were inconsistent predictors of temporal stability. • Properties conferring greater production rates and temporal stability may differ.
abstract_unstemmed	• Upper Great Lakes forests exhibit high overall production temporal stability. • Production temporal stability varied by >2-fold among stands. • More severely disturbed forests displayed greater temporal production stability. • Stand structure and leaf traits were inconsistent predictors of temporal stability. • Properties conferring greater production rates and temporal stability may differ.
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Stand age, disturbance history and the temporal stability of forest production

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