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陕北黄土区不同土地利用方式对深层土壤水和碳分布的影响
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作者 张阳阳 《安徽农业科学》 CAS 2019年第20期22-24,共3页
综述了陕北黄土区不同土地利用方式对深层土壤水和碳分布的影响,以期为科学利用土地、改善土壤水碳环境、提高土壤水碳利用率、保证区域土地可持续利用等研究提供参考。研究发现:不同土地利用方式对陕北黄土区深层土壤水分布有不同程度... 综述了陕北黄土区不同土地利用方式对深层土壤水和碳分布的影响,以期为科学利用土地、改善土壤水碳环境、提高土壤水碳利用率、保证区域土地可持续利用等研究提供参考。研究发现:不同土地利用方式对陕北黄土区深层土壤水分布有不同程度的影响;陕北黄土区深层土壤中均存在干层,继续不合理利用土地将对深层土壤水环境造成严重的影响;陕北黄土区深层土壤碳含量主要受土壤母质、古气候、大气变化等客观因素影响,但其中SIC、SOC含量更容易受人为因素影响。 展开更多
关键词 陕北黄土区 土地利用方式 深层土壤 水碳分布
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Multilayer distribution of carbon dioxide system in surface water of the Yellow Sea in spring 被引量:2
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作者 宫海东 张正斌 +2 位作者 张闯 刘莲生 邢磊 《Chinese Journal of Oceanology and Limnology》 SCIE CAS CSCD 2007年第1期1-15,共15页
Surface water can be divided into three layers from top downward: surface microlayer (SML, thickness≤50 μm), subsurface layer (SSL, ≈25 cm) and surface layer (SL, l-5m), among which the SML plays an importan... Surface water can be divided into three layers from top downward: surface microlayer (SML, thickness≤50 μm), subsurface layer (SSL, ≈25 cm) and surface layer (SL, l-5m), among which the SML plays an important role on sea-air interaction because of its unique physical-chemical property. Carbon dioxide system including DIC (dissolved inorganic carbon), Alk (alkalinity), pH and pCO: (partial pressure of CO2) in multilayered waters of the Yellow Sea was studied for the first time in March and May 2005. The results show that: DIC and Alk are obviously enriched in SML. The contents ofDIC, Alk and pCO2 become lower in turn from SML, SSL to SL, higher in March and lower in May, whereas for pH it was opposite. The relationship between DIC and Alk is clearly positive, but negative between pH and pCO2. Meanwhile, pCO2 and temperature/salinity is also in positive relation, pCO2 decreases with latitude increase. DIC and Alk show a similar variation trend with the maximum at 02:00-03:00, but pH and pCO2 show an opposite pattern. In addition, the distribution patterns are similar to each other in the three layers. The Yellow Sea is shown to be a sink of atmospheric CO2 in spring by two methods: (1) comparing pCO2 in seawater and atmosphere; (2) turning direction of "pH-depth" curve. Calculation on the base of pCO2 data in SML in four models shows that carbon flux in spring in the area was about -6.96×10^6 t C. 展开更多
关键词 the Yellow Sea carbon dioxide (CO2) system multiplayer surface microlayer carbon flux
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