The Vertical Distribution of Soil Organic Carbon and Its Relation to Climate and Vegetation

Abstract: Abstract. As the largest pool of terrestrial organic carbon, soils interact strongly with atmospheric composition, climate, and land cover change. Our capacity to predict and ameliorate the consequences of global change depends in part on a better understanding of the distributions and controls of soil organic carbon (SOC) and how vegetation change may affect SOC distributions with depth. The goals of this paper are (1) to examine the association of SOC content with climate and soil texture at different soil d… Show more

“…Historical global estimates for the top meter of soil ranged from 800 to 2,400 Pg C, converging on the range of 1,300-1,600 Pg C to 1 m. Batjes (1996) estimated that an additional 900 Pg C is stored between 1 and 2 m depth, and Jobbágy and Jackson (2000) revised that estimate to 500 Pg between 1 and 2 m and another 350 Pg between 2 and 3 m depth. Global organic C stocks to 3 m are currently estimated at 2,300 Pg, with an additional 1,000 Pg contained in permafrost and peatlands (Jobbagy and Jackson 2000;Zimov et al 2006). Soil C distribution with ecosystem type is shown in Figure 1.…”

Storage and Turnover of Organic Matter in Soil

“…Historical global estimates for the top meter of soil ranged from 800 to 2,400 Pg C, converging on the range of 1,300-1,600 Pg C to 1 m. Batjes (1996) estimated that an additional 900 Pg C is stored between 1 and 2 m depth, and Jobbágy and Jackson (2000) revised that estimate to 500 Pg between 1 and 2 m and another 350 Pg between 2 and 3 m depth. Global organic C stocks to 3 m are currently estimated at 2,300 Pg, with an additional 1,000 Pg contained in permafrost and peatlands (Jobbagy and Jackson 2000;Zimov et al 2006). Soil C distribution with ecosystem type is shown in Figure 1.…”

Storage and Turnover of Organic Matter in Soil

“…1). Agricultural cultivation has likely decreased soil C stocks by one-half to two-thirds, with a cumulative loss near 30-40 Mg C ha À 1 (ref.…”

Emerging land use practices rapidly increase soil organic matter

“…Values in parentheses are standard deviations. Analytical precision is AE3& for D 14 C and AE0.2& for d 13 C (Xu et al, 2007 There is a large pool of old, deep soil C (Jobbágy and Jackson, 2000). The mechanisms for its stability, however, have not been clear.…”

“…Deep soils (below 20 cm) are the one of the major reservoirs of organic C on earth, containing more C than is in either vegetation or the atmosphere (Jobbágy and Jackson, 2000). The nature of that C pool, however, remains something of a mystery, with questions remaining about its chemical nature, turnover time, and the processes that regulate it (Baisden and Parfitt, 2007).…”

Drying/rewetting cycles mobilize old C from deep soils from a California annual grassland