Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/wood-co-2-efflux-in-a-primary-tropical-rain-forest-WzVp1AB790
References (71)
-
C. Gehring (2004)
Liana allometric biomass equations for Amazonian primary and secondary forestFems Microbiology Letters
-
L. Schwendenmann, E. Veldkamp, Tania Brenes, J. O’Brien, J. Mackensen (2003)
Spatial and temporal variation in soil CO2 efflux in an old-growth neotropical rain forest, La Selva, Costa RicaBiogeochemistry, 64
-
P. Meir, J. Grace (2002)
Scaling relationships for woody tissue respiration in two tropical rain forestsPlant Cell and Environment, 25
-
M. Pruyn, B. Gartner, M. Harmon (2002)
Within-stem variation of respiration in Pseudotsuga menziesii (Douglas-fir) trees.The New phytologist, 154 2
-
P. Levy, P. Jarvis (1998)
Stem CO2 fluxes in two Sahelian shrub species (Guiera senegalensis and Combretum micranthum)Functional Ecology, 12
-
(1970)
Summary: an emerging view of the ecological system at El Verde. In: A Tropical Rainforest: A Study of Irradiation and Ecology and El Verde, Puerto Rico (eds Odum HT -
Damesin Damesin, Ceschia Ceschia, Le Goff Le Goff (2002)
Stem and branch respiration of beechNew Phytologist, 153
-
F. Ewers, J. Fisher (1991)
Why vines have narrow stems: Histological trends in Bauhinia (Fabaceae)Oecologia, 88
-
M. Ryan, R. Hubbard, D. Clark, R. Sanford (1994)
Woody-tissue respiration for Simarouba amara and Minquartia guianensis, two tropical wet forest trees with different growth habitsOecologia, 100
-
T. Baker, O. Phillips, Y. Malhi, S. Almeida, L. Arroyo, A. Fiore, T. Erwin, T. Killeen, S. Laurance, W. Laurance, S. Lewis, J. Lloyd, A. Monteagudo, D. Neill, S. Patiño, N. Pitman, J. Silva, R. Martínez (2004)
Variation in wood density determines spatial patterns inAmazonian forest biomassGlobal Change Biology, 10
-
R. Teskey, M. McGuire (2002)
Carbon dioxide transport in xylem causes errors in estimation of rates of respiration in stems and branches of treesPlant Cell and Environment, 25
-
S. Linder, E. Troeng (1980)
Photosynthesis and transpiration in 20-year-old Scots pine., 32
-
D. Nepstad, P. Moutinho, M. Dias-Filho, E. Davidson, G. Cardinot, D. Markewitz, R. Figueiredo, N. Vianna, J. Chambers, D. Ray, J. Guerreiros, P. Lefebvre, L. Sternberg, M. Moreira, L. Barros, F. Ishida, I. Tohlver, E. Belk, K. Kalif, K. Schwalbe (2002)
The effects of partial throughfall exclusion on canopy processes, aboveground production, and biogeochemistry of an Amazon forestJournal of Geophysical Research, 107
-
D. Sprugel (1990)
Components of woody-tissue respiration in young Abies amabilis (Dougl.) Forbes treesTrees, 4
-
D. Clark, D. Clark, P. Rich, S. Weiss, S. Oberbauer (1996)
Landscape scale evaluation of understory light and canopy structure : methods and application in a neotropical lowland rain forestCanadian Journal of Forest Research, 26
-
(1994)
Use of green moisture content and basic specific gravity to group tropical woods for kiln drying -
(1981)
Carbon metabolism in terrestrial ecosystems. In: Dynamic Properties of Forest Ecosystems (ed -
F. Carswell, P. Meir, E. Wandelli, L. Bonates, B. Kruijt, E. Barbosa, A. Nobre, J. Grace, P. Jarvis (2000)
Photosynthetic capacity in a central Amazonian rain forest.Tree physiology, 20 3
-
M. Ryan, R. Hubbard, S. Pongracic, R. Raison, R. McMurtrie (1996)
Foliage, fine-root, woody-tissue and stand respiration in Pinus radiata in relation to nitrogen status.Tree physiology, 16 3
-
Sandra Brown, L. Iverson, A. Prasad, A. Lugo (1997)
Estimating biomass and biomass change of tropical forests -
J. Fisher, F. Ewers (1995)
Vessel dimensions in liana and tree species of Gnetum (Gnetales)American Journal of Botany, 82
-
R. Matyssek, E. Schulze (1988)
Carbon uptake and respiration in above-ground parts of a Larix decidua × leptolepis treeTrees, 2
-
D. Clark, D. Clark (2000)
TREE GROWTH, MORTALITY, PHYSICAL CONDITION, AND MICROSITE IN OLD-GROWTH LOWLAND TROPICAL RAIN FOREST Ecological Archives E081-003Ecology, 81
-
P. Beier, K. Burnham, David Anderson (2001)
Model Selection and Inference: A Practical Information-Theoretic ApproachJournal of Wildlife Management, 65
-
J. Proctor, T. Whitmore (1977)
Tropical Rain Forests of the Far East.Journal of Ecology, 65
-
R. Teskey, M. McGuire (2005)
CO2 transported in xylem sap affects CO2 efflux from Liquidambar styraciflua and Platanus occidentalis stems, and contributes to observed wound respiration phenomenaTrees, 19
-
G. Ågren, B. Axelsson (1980)
Population respiration a theoretical approachEcological Modelling, 11
-
F. Carswell, A. Costa, M. Palheta, Y. Malhi, P. Meir, J. Costa, M. Ruivo, L. Leal, J.M.N. Costa, R. Clement, J. Grace (2002)
Seasonality in CO2 and H2O flux at an eastern Amazonian rain forestJournal of Geophysical Research, 107
-
Dang Dang, Margolis Margolis, Sy Sy (1997)
Profiles of photosynthetically active radiation, nitrogen and photosynthetic capacity in the boreal forestJournal of Geophysical Research-Atmospheres, 102
-
M. Goulden, S. Miller, H. Rocha, M. Menton, H. Freitas, A. Figueira, Cleilim Sousa (2004)
DIEL AND SEASONAL PATTERNS OF TROPICAL FOREST CO2 EXCHANGEEcological Applications, 14
-
D. Ellsworth, P. Reich (1993)
Canopy structure and vertical patterns of photosynthesis and related leaf traits in a deciduous forestOecologia, 96
-
M. Ryan (1990)
Growth and maintenance respiration in stems of Pinuscontorta and PiceaengelmanniiCanadian Journal of Forest Research, 20
-
C. Maier (2001)
Stem growth and respiration in loblolly pine plantations differing in soil resource availability.Tree physiology, 21 16
-
B. Saugier, J. Roy, H. Mooney (2001)
23 – Estimations of Global Terrestrial Productivity: Converging toward a Single Number? -
(1965)
Estimation of the total amount of respiration in woody organs of trees and forest communities -
(1967)
Comparative ecological studies on three main types of forest vegetation in Thailand III. Community respiration -
William Bowman, M. Barbour, M. Turnbull, D. Tissue, D. Whitehead, K. Griffin (2005)
Sap flow rates and sapwood density are critical factors in within- and between-tree variation in CO2 efflux from stems of mature Dacrydium cupressinum trees.The New phytologist, 167 3
-
M. Lavigne, Steven Franklin, E. Hunt (1996)
Estimating stem maintenance respiration rates of dissimilar balsam fir stands.Tree physiology, 16 8
-
E. Fichtler, D. Clark, M. Worbes (2003)
Age and Long‐term Growth of Trees in an Old‐growth Tropical Rain Forest, Based on Analyses of Tree Rings and 14C1Biotropica, 35
-
O. Phillips, R. Martinez, A. Mendoza, T. Baker, P. Vargas (2005)
LARGE LIANAS AS HYPERDYNAMIC ELEMENTS OF THE TROPICAL FOREST CANOPYEcology, 86
-
D. Haziett (1987)
Seasonal cambial activity for Pentaclethra, Goelthalsia, and Carapa trees in a Costa Rican lowland forestBiotropica, 19
-
Ewers Ewers, Fisher Fisher (1991)
Why vines have narrow stemsOecologia, 88
-
Gehring Gehring, Park Park, Denich Denich (2004)
Liana allometric biomass equations for Amazonian primary and secondary forestForest Ecology and Management, 195
-
H. Loescher, S. Oberbauer, H. Gholz, D. Clark (2003)
Environmental controls on net ecosystem‐level carbon exchange and productivity in a Central American tropical wet forestGlobal Change Biology, 9
-
G. M., Anderson (2007)
Annual carbon cost of autotrophic respiration in boreal forest ecosystems in relation to species and climate -
D. Clark, D. Clark (2000)
Landscape-scale variation in forest structure and biomass in a tropical rain forestForest Ecology and Management, 137
-
F. Putz (1983)
Liana biomass and leaf area of a «Tierra Firme» forest in the Rio Negro Basin, VenezuelaBiotropica, 15
-
D. Clark, D. Clark (2000)
TREE GROWTH, MORTALITY, PHYSICAL CONDITION, AND MICROSITE IN AN OLD-GROWTH LOWLAND TROPICAL RAIN FORESTEcology, 81
-
T. Wood, D. Lawrence, D. Clark (2005)
Variation in leaf litter nutrients of a Costa Rican rain forest is related to precipitationBiogeochemistry, 73
-
Q. Dang, H. Margolis, M. Sy, M. Coyea, G. Collatz, C. Walthall (1997)
Profiles of photosynthetically active radiation, nitrogen and photosynthetic capacity in the boreal forest: Implications for scaling from leaf to canopyJournal of Geophysical Research, 102
-
T. Restom, D. Nepstad (2001)
Contribution of vines to the evapotranspiration of a secondary forest in eastern AmazoniaPlant and Soil, 236
-
M. Ryan, R. Waring (1992)
Maintenance Respiration and Stand Development in a Subalpine Lodgepole Pine ForestEcology, 73
-
M. McGuire, R. Teskey (2004)
Estimating stem respiration in trees by a mass balance approach that accounts for internal and external fluxes of CO2.Tree physiology, 24 5
-
K. Wilson, D. Baldocchi, P. Hanson (2000)
Spatial and seasonal variability of photosynthetic parameters and their relationship to leaf nitrogen in a deciduous forest.Tree physiology, 20 9
-
C. Damesin, E. Ceschia, N. Goff, J. Ottorini, E. Dufrene (2002)
Stem and branch respiration of beech: from tree measurements to estimations at the stand levelNew Phytologist, 153
-
Clark Clark, Clark Clark, Rich Rich (1996)
Landscape scale evaluation of understory light and canopy structureCanadian Journal of Forest Research-Revue Canadienne De Recherche Forestiere, 26
-
Chambers Chambers, Tribuzy Tribuzy, Toledo Toledo (2004)
Respiration from a tropical forest ecosystemEcological Applications, 14
-
J. Vose, M. Ryan (2002)
Seasonal respiration of foliage, fine roots, and woody tissues in relation to growth, tissue N, and photosynthesisGlobal Change Biology, 8
-
J. Chambers, E. Tribuzy, L. Toledo, B. Crispim, N. Higuchi, J. Santos, A. Araújo, B. Kruijt, A. Nobre, S. Trumbore (2004)
Respiration from a tropical forest ecosystem: partitioning of sources and low carbon use efficiencyEcological Applications, 14
-
H. Muller‐Landau (2004)
Interspecific and Inter‐site Variation in Wood Specific Gravity of Tropical TreesBiotropica, 36
-
R. Hubbard, B. Bond, R. Senock, M. Ryan (2002)
Effects of branch height on leaf gas exchange, branch hydraulic conductance and branch sap flux in open-grown ponderosa pine.Tree physiology, 22 8
-
M. Clark, D. Clark, D. Roberts (2004)
Small-footprint lidar estimation of sub-canopy elevation and tree height in a tropical rain forest landscapeRemote Sensing of Environment, 91
-
L. Cernusak, J. Marshall (2000)
Photosynthetic refixation in branches of Western White PineFunctional Ecology, 14
-
A. Greller, L. McDade, K. Bawa, H. Hespenheide, G. Hartshorn (1995)
La Selva: ecology and natural history of a neotropical rain forest.Bulletin of the Torrey Botanical Club, 122
-
D. Sprugel, M. Ryan, J. Brooks, K. Vogt, T. Martin (1995)
Respiration from the organ level to the stand -
J. Chave, Ae Andalo, Ae Brown, Ae Cairns, J. Chambers, A. Eamus, Ae Foïster, Ae Fromard, N. Higuchi, Ae Kira, J. Lescure, Ae Nelson, H. Ogawa, Ae Puig, Ae Rie´ra, Ae Yamakura, S. Brown, M. Cairns, D. Eamus, H. Foïster, F. Fromard, T. Kira, B. Rie´ra (2005)
Tree allometry and improved estimation of carbon stocks and balance in tropical forestsOecologia, 145
-
M. Segura, M. Kanninen (2005)
Allometric Models for Tree Volume and Total Aboveground Biomass in a Tropical Humid Forest in Costa Rica 1Biotropica, 37
-
K. Yoda (1983)
COMMUNITY RESPIRATION IN A LOWLAND RAIN FOREST IN PASOH, PENINSULAR MALAYSIAJapanese Journal of Ecology, 33
-
(1965)
Production brute, pertes par respiration et production nette dans la foret ombrophile tropicale -
M. Ryan, S. Gower, R. Hubbard, R. Waring, H. Gholz, W. Cropper, S. Running (1995)
Woody tissue maintenance respiration of four conifers in contrasting climatesOecologia, 101
-
E. Fichtler, D. Clark, M. Worbes (2003)
Age and Long-term Growth of Trees in an Old-growth Tropical Rain Forest, Based on Analyses of Tree Rings and 14C1, 35
- Publisher
- Wiley
- Copyright
- Copyright © 2006 Wiley Subscription Services, Inc., A Wiley Company
- ISSN
- 1354-1013
- eISSN
- 1365-2486
- DOI
- 10.1111/j.1365-2486.2006.01269.x
- Publisher site
- See Article on Publisher Site
Abstract
The balance between photosynthesis and plant respiration in tropical forests may substantially affect the global carbon cycle. Woody tissue CO2 efflux is a major component of total plant respiration, but estimates of ecosystem‐scale rates are uncertain because of poor sampling in the upper canopy and across landscapes. To overcome these problems, we used a portable scaffolding tower to measure woody tissue CO2 efflux from ground level to the canopy top across a range of sites of varying slope and soil phosphorus content in a primary tropical rain forest in Costa Rica. The objectives of this study were to: (1) determine whether to use surface area, volume, or biomass for modeling and extrapolating wood CO2 efflux, (2) determine if wood CO2 efflux varied seasonally, (3) identify if wood CO2 efflux varied by functional group, height in canopy, soil fertility, or slope, and (4) extrapolate wood CO2 efflux to the forest. CO2 efflux from small diameter woody tissue (<10 cm) was related to surface area, while CO2 efflux from stems >10 cm was related to both surface area and volume. Wood CO2 efflux showed no evidence of seasonality over 2 years. CO2 efflux per unit wood surface area at 25° (FA) was highest for the N‐fixing dominant tree species Pentaclethra macroloba, followed by other tree species, lianas, then palms. Small diameter FA increased steeply with increasing height, and large diameter FA increased with diameter. Soil phosphorus and slope had slight, but complex effects on FA. Wood CO2 efflux per unit ground area was 1.34±0.36 μmol m−2 s−1, or 508±135 g C m−2 yr−1. Small diameter wood, only 15% of total woody biomass, accounted for 70% of total woody tissue CO2 efflux from the forest; while lianas, only 3% of total woody biomass, contributed one‐fourth of the total wood CO2 efflux.
Journal
Global Change Biology – Wiley
Published: Dec 1, 2006