L.R. Follmer Hongfang Wang 1998 <div id="15578168" class="article-section-wrapper js-article-section js-content-section " data-section-parent-id="0"><p>Soil organic matter (SOM) and soil carbonate (SC) are common constituents in soils and are directly related to plant growth. SOM accumulates gradually from the decomposition of plant material over time, whereas SC formation is biased to dry-season soil-dissolved CO₂<span>&nbsp;</span>that derives from plant respiration during a drying phase of the growing season. In some mixed C₃-C₄<span>&nbsp;</span>environments, the peak of C₃<span>&nbsp;</span>and C₄<span>&nbsp;</span>plant metabolism differs seasonally, and the carbon source that contributes to the SOM and SC can be different. Consequently, δ¹³_SOM<span>&nbsp;</span>values reflect an annual average of the floral biomass, but δ¹³_SC<span>&nbsp;</span>values reflect a seasonal aspect of the plant community. The relationship between δ¹³C_SC<span>&nbsp;</span>and δ¹³C_SOM<span>&nbsp;</span>is mainly controlled by how different the seasonal conditions are. Our results suggest that the relationship is a seasonal proxy that can be used to differentiate the seasonality effects of Indian, East Asian, and Siberian monsoons on the Chinese Loess Plateau during the last interglacial-glacial cycle.</p></div> application/pdf 10.1130/0091-7613(1998)026<0987:POMSIC>2.3.CO;2 en Geological Society of America Proxy of monsoon seasonality in carbon isotopes from paleosols of the southern Chinese Loess Plateau article