Large contribution of recent photosynthate to soil respiration in tropical dipterocarp forest revealed by girdling

Tropical forests are the most productive terrestrial ecosystems, fixing over 40 Pg of carbon from the atmosphere each year. A substantial portion of this carbon is allocated below‐ground to roots and root‐associated micro‐organisms. However, there have been very few empirical studies on the dynamics...

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Published in:The Journal of ecology 2022-02, Vol.110 (2), p.387-403
Main Authors: Nottingham, Andrew T., Cheesman, Alexander W., Riutta, Terhi, Doughty, Christopher E., Telford, Elizabeth, Huaraca Huasco, Walter, Svátek, Martin, Kvasnica, Jakub, Majalap, Noreen, Malhi, Yadvinder, Meir, Patrick, Arn Teh, Yit
Format: Article
Language:English
Subjects:
Atmosphere
autotrophic respiration
below‐ground carbon allocation
Carbon
Carbon dioxide
Carbon dioxide emissions
Community composition
Composition
Coupling
Dipterocarpaceae
Dynamics
Efflux
Emissions
Fagaceae
Forest ecosystems
Forests
Girdling
heterotrophic respiration
Mortality
Photosynthates
Plant diversity
Plant species
plant–soil interactions
Respiration
Rhizosphere
SAFE project
Soil
soil CO2 efflux
Soil density
Soils
Spatial variations
Species composition
Species diversity
terrestrial carbon cycle
Terrestrial ecosystems
Terrestrial environments
tree mortality
Trees
Tropical climate
Tropical forests
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Summary:Tropical forests are the most productive terrestrial ecosystems, fixing over 40 Pg of carbon from the atmosphere each year. A substantial portion of this carbon is allocated below‐ground to roots and root‐associated micro‐organisms. However, there have been very few empirical studies on the dynamics of this below ground transfer, especially in tropical forests where carbon allocation processes are influenced by high plant species diversity. We used a whole‐stand girdling experiment to halt the below‐ground transfer of recent photosynthates in a lowland tropical forest in Borneo. By girdling 209 large trees in a 0.48 ha plot, we determined: (a) the contribution of recent photosynthate to root‐rhizosphere respiration and; (b) the relationships among the disruption of this below‐ground carbon supply, tree species composition and mortality. Mortality of the 209 trees was 62% after 370 days, with large variation among species and particularly high mortality within the Dipterocarpaceae (99%) and Fagaceae (100%) families. We also observed a higher risk of mortality following girdling for species with lower wood density. Soil CO2 emissions declined markedly (36 ± 5%) over ~50 days following girdling in three of six monitored subplots. In the other three subplots there was either a marginal decline or no response of soil CO2 emissions to girdling. The decrease in soil CO2 efflux was larger in subplots with dominance of Dipterocarpaceae. Synthesis. Our results indicate high spatial variation in the coupling of below‐ground carbon allocation and root‐rhizosphere respiration in this tropical forest, with a closer coupling in forest dominated by Dipterocarpaceae. Our findings highlight the implications of tree species composition of tropical forests in affecting the dynamics of below‐ground carbon transfer and its release to the atmosphere. Ringkasan Hutan tropis adalah ekosistem terestrial yang paling produktif, menghasilkan sekitar 40 Pg karbon dari atmosfer setiap tahun. Sebilangan besar karbon ini diperuntukkan di bawah tanah untuk akar dan mikroorganisma yang berkaitan dengan akar. Walau bagaimanapun, terdapat sedikit kajian empirik mengenai dinamika pemindahan bawah tanah ini, terutama di hutan tropika di mana proses peruntukan karbon dimediasi oleh kepelbagaian spesies tumbuhan yang tinggi. Kami menggunakan eksperimen girdling utuh untuk menghentikan pemindahan fotosintesis baru‐baru ini di hutan tropika dataran rendah di Borneo. Dengan merangkai 209 pokok besar
ISSN:0022-0477
1365-2745
DOI:10.1111/1365-2745.13806