摘要
2000-2002年期间,笔者对青藏高原东部长江流域溶质载荷分别进行了取样分析并对流域盆地化学剥蚀通量、剥蚀速率和大气CO2净消耗率进行了计算。结果表明,流域盆地化学剥蚀速率以河源区楚玛尔河最高为2.34×10^6mol/a/km^2,沱沱河最低为1.40×10^6mol/a/km^2,四大支流雅砻江为1.69×10^6mol/a/km^2,金沙江为1.74×10^6mol/a/km^2,大渡河为1.57×10^6mol/a/km^2,岷江为1.88×10^6mol/a/km^2;流域盆地ФCO2估算结果以大渡河最高为101.81×10^3mol/a/km^2,楚玛尔河最低为7.55×10^3mol/a/km^2,金沙江为44.38×10^3mol/a/km^2,雅砻江为69.64×10^3mol/a/km^2,岷江为81.90×10^3mol/a/km^2,沱沱河为21.90×10^3mol/a/km2^。并对长江流域地表化学剥蚀速率主要控制因素进行了讨论。
Based on the samples taken from the Changjiang drainage basins on the eastern Qinghai-Xizang Plateau in May and June of 2000, 2001 and 2002, the continental chemical weathering flux, chemical denudation rates and net CO2 consumption rates for individual basins are generalized as follows. (1) The chemical denudation rate is highest (2.34 ×10^6 mol/yr/km^2 ) for the Qumar River and lowest ( 1.40 × 10^6 mol/yr/km^2 ) for the Yuotuo River. The chemical denudation rates of the other four main tributaries of the Changjiang River in the region are 1.69 × 10^6 mol/yr/km^2for the Yalong River, 1.74 × 10^6 mol/yr/km^2 for the Jinsha River, 1.57 × 10^6 mol/yr/km^2 for the Dadu River, and 1.88× 10^6 mol/yr/km^2 for the Minjiang River, respectively. (2) The net CO2 consumption rates in the tributaries of the Yangtze River, on the other hand, are 101.81× 10^3 mol/yr/km^2 for the Dadu River, 7.55 ×10^3 mol/yr/km21 for the Qumar River, 44.38× 103 mol/yr/km2 for the Jinsha River, 69.64 × 103 mo]/ yr/km^2 for the Yalong River, 81.90×10^3 mol/yr/km^2 for the Minjiang River, and 21.90 × 10^3 mol/yr/km^2 for the Tuotuo River, respectively. The physical weathering is considered as a most important factor influencing the chemical denudation rates in the study area.
出处
《沉积与特提斯地质》
CAS
CSCD
2008年第1期1-6,共6页
Sedimentary Geology and Tethyan Geology
关键词
青藏高原
长江流域
化学剥蚀通量
剥蚀速率
大气CO2净消耗率
Qinghai-Xizang Plateau
Changjiang drainage basin
chemical weathering flux
chemical denudation rate
net CO2 consumption rate