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Carbon allocation and carbon isotope fluxes in the plant-soil-atmosphere continuum: A review
- Source :
- Biogeosciences 8, 3457-3489 (2011), Biogeosciences 8, 3457-3489 (2011). doi:10.5194/bgd-8-3619-2011, Biogeosciences, Biogeosciences, 8 (11), BIOGEOSCIENCES, Brueggemann, N, Gessler, A, Kayler, Z, Keel, S G, Badeck, F, Barthel, M, Boeckx, P, Buchmann, N, Brugnoli, E, Esperschuetz, J, Gavrichkova, O, Ghashghaie, J, Gomez-Casanovas, N, Keitel, C, Knohl, A, Kuptz, D, Palacio, S, Salmon, Y, Uchida, Y & Bahn, M 2011, ' Carbon allocation and carbon isotope fluxes in the plant-soil-atmosphere continuum: a review ', Biogeosciences, vol. 8, no. 11, pp. 3457-3489 . https://doi.org/10.5194/bg-8-3457-2011, Biogeosciences, Vol 8, Iss 11, Pp 3457-3489 (2011)
- Publication Year :
- 2011
- Publisher :
- Copernicus Gesellschaft mbH, 2011.
-
Abstract
- The terrestrial carbon (C) cycle has received increasing interest over the past few decades, however, there is still a lack of understanding of the fate of newly assimilated C allocated within plants and to the soil, stored within ecosystems and lost to the atmosphere. Stable carbon isotope studies can give novel insights into these issues. In this review we provide an overview of an emerging picture of plant-soil-atmosphere C fluxes, as based on C isotope studies, and identify processes determining related C isotope signatures. The first part of the review focuses on isotopic fractionation processes within plants during and after photosynthesis. The second major part elaborates on plant-internal and plant-rhizosphere C allocation patterns at different time scales (diel, seasonal, interannual), including the speed of C transfer and time lags in the coupling of assimilation and respiration, as well as the magnitude and controls of plant-soil C allocation and respiratory fluxes. Plant responses to changing environmental conditions, the functional relationship between the physiological and phenological status of plants and C transfer, and interactions between C, water and nutrient dynamics are discussed. The role of the C counterflow from the rhizosphere to the aboveground parts of the plants, e.g. via CO2 dissolved in the xylem water or as xylem-transported sugars, is highlighted. The third part is centered around belowground C turnover, focusing especially on above- and belowground litter inputs, soil organic matter formation and turnover, production and loss of dissolved organic C, soil respiration and CO2 fixation by soil microbes. Furthermore, plant controls on microbial communities and activity via exudates and litter production as well as microbial community effects on C mineralization are reviewed. A further part of the paper is dedicated to physical interactions between soil CO2 and the soil matrix, such as CO2 diffusion and dissolution processes within the soil profile. Finally, we highlight state-of-the-art stable isotope methodologies and their latest developments. From the presented evidence we conclude that there exists a tight coupling of physical, chemical and biological processes involved in C cycling and C isotope fluxes in the plant-soil-atmosphere system. Generally, research using information from C isotopes allows an integrated view of the different processes involved. However, complex interactions among the range of processes complicate or currently impede the interpretation of isotopic signals in CO2 or organic compounds at the plant and ecosystem level. This review tries to identify present knowledge gaps in correctly interpreting carbon stable isotope signals in the plant-soil-atmosphere system and how future research approaches could contribute to closing these gaps.
- Subjects :
- TEMPERATE GRASSLAND SOILS
0106 biological sciences
lcsh:Life
SCALING PHLOEM TRANSPORT
MATURE DECIDUOUS FOREST
01 natural sciences
Soil respiration
lcsh:QH540-549.5
MICROBIAL COMMUNITY COMPOSITION
ddc:570
Dissolved organic carbon
Ecosystem
DISSOLVED ORGANIC-CARBON
Carbon allocation
isotope fluxes
plant-soil-atmosphere continuum
Ecology, Evolution, Behavior and Systematics
Earth-Surface Processes
RECENTLY ASSIMILATED CARBON
Rhizosphere
Ecology
Stable isotope ratio
Soil organic matter
lcsh:QE1-996.5
04 agricultural and veterinary sciences
LEAF-RESPIRED CO2
15. Life on land
SHORT-TERM VARIATIONS
lcsh:Geology
lcsh:QH501-531
Isotopes of carbon
13. Climate action
Environmental chemistry
Earth and Environmental Sciences
FAGUS-SYLVATICA L
040103 agronomy & agriculture
Environmental science
Soil horizon
0401 agriculture, forestry, and fisheries
lcsh:Ecology
CRASSULACEAN ACID METABOLISM
010606 plant biology & botany
Subjects
Details
- Language :
- English
- ISSN :
- 17264170
- Database :
- OpenAIRE
- Journal :
- Biogeosciences 8, 3457-3489 (2011), Biogeosciences 8, 3457-3489 (2011). doi:10.5194/bgd-8-3619-2011, Biogeosciences, Biogeosciences, 8 (11), BIOGEOSCIENCES, Brueggemann, N, Gessler, A, Kayler, Z, Keel, S G, Badeck, F, Barthel, M, Boeckx, P, Buchmann, N, Brugnoli, E, Esperschuetz, J, Gavrichkova, O, Ghashghaie, J, Gomez-Casanovas, N, Keitel, C, Knohl, A, Kuptz, D, Palacio, S, Salmon, Y, Uchida, Y & Bahn, M 2011, ' Carbon allocation and carbon isotope fluxes in the plant-soil-atmosphere continuum: a review ', Biogeosciences, vol. 8, no. 11, pp. 3457-3489 . https://doi.org/10.5194/bg-8-3457-2011, Biogeosciences, Vol 8, Iss 11, Pp 3457-3489 (2011)
- Accession number :
- edsair.doi.dedup.....dc898e1b7baceb715799cba50f47e597
- Full Text :
- https://doi.org/10.5194/bgd-8-3619-2011