Microtopographic variation in soil respiration and its controlling factors vary with plant phenophases in a desert–shrub ecosystem

Microtopographic variation in soil respiration and its controlling factors vary with plant phenophases in a desert–shrub ecosystem

Soil respiration (Rs) and its biophysical controls were measured over a fixed sand dune in a desert-shrub ecosystem in northwest China in 2012 to explore the mechanisms controlling the spatial heterogeneity in Rs and to understand the plant effects on the spatial variation in Rs in different phenoph...

Full description

Saved in:
Bibliographic Details
Published in:Biogeosciences Vol. 12; no. 19; pp. 5705 - 5714
Main Authors: Wang, B, Zha, T. S, Jia, X, Gong, J. N, Wu, B, Bourque, C. P. A, Zhang, Y, Qin, S. G, Chen, G. P, Peltola, H
Format: Journal Article
Language:English
Published: Katlenburg-Lindau Copernicus GmbH 08-10-2015
Copernicus Publications
Subjects:
Artemisia
Automation
Biomass
Coefficient of variation
Coloration
Colour
Defoliation
Desert plants
Deserts
Dunes
Ecosystems
Environmental aspects
Heterogeneity
Measurement
Nitrogen
Nitrogen content
Patchiness
Phenology
Plant phenology
Respiration
Sand
Slopes
Soil
Soil respiration
Soils
Spatial heterogeneity
Spatial variations
Topography
Vegetation
United States > US
China
Nebraska
China, People's Rep
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Soil respiration (Rs) and its biophysical controls were measured over a fixed sand dune in a desert-shrub ecosystem in northwest China in 2012 to explore the mechanisms controlling the spatial heterogeneity in Rs and to understand the plant effects on the spatial variation in Rs in different phenophases. The measurements were carried out on four slope orientations (i.e., windward, leeward, north- and south-facing) and three height positions on each slope (i.e., lower, upper, and top) across the phenophases of the dominant shrub species (Artemisia ordosica). Coefficient of variation (i.e., standard deviation/mean) of Rs across the 11 microsites over our measurement period was 23.5 %. Soil respiration was highest on the leeward slope, and lowest on the windward slope. Over the measurement period, plant-related factors, rather than microhydrometeorological factors, affected the microtopographic variation in Rs. During the flower-bearing phase, root biomass affected Rs most, explaining 72 % of the total variation. During the leaf coloration-defoliation phase, soil nitrogen content affected Rs the most, explaining 56 % of the total variation. Our findings highlight that spatial pattern in Rs was dependent on plant distribution over a desert sand dune, and plant-related factors largely regulated topographic variation in Rs, and such regulations varied with plant phenology.
Bibliography:ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1726-4189
1726-4170
1726-4189
DOI:10.5194/bg-12-5705-2015