Bryophyte Stable Isotope Composition, Diversity and Biomass Define Tropical Montane Cloud Forest Extent

Overview

Journal Proc Biol Sci

Specialty Biology

Date 2019 Apr 10

PMID 30963945

Citations 6

Authors

Aline B Horwath

Jessica Royles

Richard Tito

Jose A Gudino

Noris Salazar Allen

William Farfan-Rios

Joshua M Rapp

Miles R Silman

Yadvinder Malhi

Varun Swamy

Jean Paul Latorre Farfan

Howard Griffiths

Affiliations

Soon will be listed here.

Abstract

Liverworts and mosses are a major component of the epiphyte flora of tropical montane forest ecosystems. Canopy access was used to analyse the distribution and vertical stratification of bryophyte epiphytes within tree crowns at nine forest sites across a 3400 m elevational gradient in Peru, from the Amazonian basin to the high Andes. The stable isotope compositions of bryophyte organic material (C/C and O/O) are associated with surface water diffusive limitations and, along with C/N content, provide a generic index for the extent of cloud immersion. From lowland to cloud forest δC increased from -33‰ to -27‰, while δO increased from 16.3‰ to 18.0‰. Epiphytic bryophyte and associated canopy soil biomass in the cloud immersion zone was estimated at up to 45 t dry mass ha, and overall water holding capacity was equivalent to a 20 mm precipitation event. The study emphasizes the importance of diverse bryophyte communities in sequestering carbon in threatened habitats, with stable isotope analysis allowing future elevational shifts in the cloud base associated with changes in climate to be tracked.

Citing Articles

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Do Nitrogen and Phosphorus Additions Affect Nitrogen Fixation Associated with Tropical Mosses?.

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