Plant rhizodeposition: A key factor for soil organic matter formation in stable fractions

被引：221

作者：

Villarino, Sebastian H. ^{[1
]}

Pinto, Priscila ^{[2
]}

Jackson, Robert B. ^{[3
,4
]}

Pineiro, Gervasio ^{[2
,5
]}

机构：

[1] Consejo Nacl Invest Cient & Tecn CONICET, Buenos Aires, DF, Argentina

[2] Univ Buenos Aires, IFEVA Fac Agron, CONICET, Buenos Aires, DF, Argentina

[3] Stanford Univ, Woods Inst Environm, Earth Syst Sci Dept, Stanford, CA 94305 USA

[4] Stanford Univ, Precourt Inst Energy, Stanford, CA 94305 USA

[5] Univ Republica, Fac Agron, Dept Sistemas Ambientales, Montevideo, Uruguay

来源：

SCIENCE ADVANCES | 2021年 / 7卷 / 16期

关键词：

NO-TILL CORN; STABILIZATION DYNAMICS; LITTER DECOMPOSITION; CARBON SEQUESTRATION; ECOSYSTEM SERVICES; C-13-LABELED LEAF; LAND-USE; ROOT-C; NITROGEN; C-13;

D O I：

10.1126/sciadv.abd3176

中图分类号：

O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];

学科分类号：

07 ; 0710 ; 09 ;

摘要：

Soil organic carbon formation remains poorly understood despite its importance for human livelihoods. Uncertainties remain for the relative contributions of aboveground, root, and rhizodeposition inputs to particulate (POC) and mineral-associated (MAOC) organic carbon fractions. Combining a novel framework with isotope tracer studies, we quantified POC and MAOC formation efficiencies (% of C-inputs incorporated into each fraction). We found that rhizodeposition inputs have the highest MAOC formation efficiency (46%) as compared to roots (9%) or aboveground inputs (7%). In addition, rhizodeposition unexpectedly reduced POC formation, likely because it increased decomposition rates of new POC. Conversely, root biomass inputs have the highest POC formation efficiency (19%). Therefore, rhizodeposition and roots appear to play opposite but complementary roles for building MAOC and POC fractions.

引用

页数：13

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