Content and densities of soil organic carbon in urban soil in different function districts of Kaifeng

Urban soil, forming along with the development of city, has unique properties of soil organic carbon. On the basis of field investigation and laboratory analysis, soil organic carbon (SOC) of Kaifeng city was studied, and the results showed that the characteristics of SOC were different not only among function districts in urban area, but also between urban area and suburbs. The order of SOC in topsoil was industrial district > recreational district > traffic district > cultural/educational district > residential/administrative district. The density of soil organic carbon (SOCD) in both topsoil and profile followed the orders of recreational district > industrial district > traffic district>cultural/educational district > residential/administrative district, and cultural/educational district s>traffic district>industrial district>recreational district > administrative/residential district, respectively. SOCD in both topsoil and profile decreased along the transection line from urban area to suburbs and urban area had 2.53-fold more SOCD in topsoil and 1.56-fold more SOCD in profile than suburbs, respectively. SOC decreased with the depth and was mainly distributed within the scope of 0–30 cm. The variances of SOC in urban area were more complicated than that in suburbs.     

Content and densities of soil organic carbon in urban soil in different function districts of Kaifeng

Urban soil, forming along with the development of city, has unique properties of soil organic carbon. On the basis of field investigation and laboratory analysis, soil organic carbon (SOC) of Kaifeng city was studied, and the results showed that the characteristics of SOC were different not only among function districts in urban area, but also between urban area and suburbs. The order of SOC in topsoil was industrial district > recreational district > traffic district > cultural/educational district > residential/administrative district. The density of soil organic carbon (SOCD) in both topsoil and profile followed the orders of recreational district > industrial district > traffic district>cultural/educational district > residential/adminis- trative district, and cultural/educational district > traffic district>industrial district>recreational district > administrative/residential district, respectively. SOCD in both topsoil and profile decreased along the transection line from urban area to suburbs and urban area had 2.53-fold more SOCD in topsoil and 1.56-fold more SOCD in profile than suburbs, respectively. SOC decreased with the depth and was mainly distributed within the scope of 0–30 cm. The variances of SOC in urban area were more complicated than that in suburbs.     

开封市不同功能区城市土壤有机碳含量与密度分析

研究开封城市土壤有机碳,发现不同功能区类型间及城区与郊区间的有机碳特性存在差异:土壤表层有机碳含量为工业区>休闲区>交通区>文教区>行政/居民区;表层有机碳密度为休闲区>工业区>交通区>文教>行政/居民区;土壤剖面有机碳密度为文教区>交通区>工业区>休闲区>行政/居民区.城市土壤表层有机碳密度和剖面有机碳密度均沿城郊剖面线呈下降式梯度变化,城区分别是郊区的2.53和1.56倍.城市土壤有机碳积累主要在地表之下0～30 cm范围内.     

安徽省土壤有机碳空间差异及影响因素

区域土壤碳储量和碳固定潜力及影响因素分析是全球变化中碳循环研究的重要前沿问题。本文采用第二次土壤普查资料,研究了安徽省不同类型土壤的有机碳密度和碳库,分析了影响土壤有机碳分布的自然和人为因素。结果表明,安徽土壤有机碳库为0.71Pg,表层土壤有机碳库为0.28Pg;土壤平均有机碳密度达117.54 t/hm²,碳密度的空间分布为:皖南山区>皖西大别山区>沿长江平原>江淮丘陵区>淮北平原区;气候和植被控制着表层土壤有机碳的省域分布,降水与土壤有机碳含量呈正相关。地形和母质影响土壤亚类间有机碳的差异;土壤总氮与土壤有机碳呈极显著相关,平原区土壤粘粒含量与表层土壤有机碳固定有较大关系。     

大连城市居住适宜性的空间评价

为创造更好、更适宜人们居住、生活和工作的空间,不断提高市民的生活质量,选择城市的生活方便性、健康性、居住安全性、环境舒适度和出行方便性等为指标,在问卷调查量化数据的基础上,采用层次分析法和Q型聚类分析方法,从行政区和不同功能片区两个角度,进行了大连城市居住适宜性空间评价,以期为大连城市建设提供参考。研究表明:大连城市居住适宜性以位于市区政治经济商业中心的区域得分最高,西、北部市郊结合部排名最后,部分远郊区宜居性虽然较好,但各指标分值差异却很大。总体而言,大连城市宜居性在空间格局上体现出由中心城区向外围逐渐降低、差异程度变大的特性,该空间特征分析结论与行政区评价结果具有很好的一致性。     

土地覆盖类型对科尔沁沙地南缘土壤有机碳储量的影响

研究了科尔沁沙地南缘土地覆盖由流动沙地向人工林地、农田及固定沙地等转变后,0~60 cm土层有机碳储量的变化。结果表明：农田土壤有机碳含量增加最明显,为流动沙地的3.97倍且相同层间差异均显著;樟子松（Pinus sylvestris var. mongolica）林地、新疆杨（Populus alba var. pyramidalis）林地、小叶锦鸡儿（Caragana microphylla）群落土壤有机碳含量较流动沙地分别增加79.78%、138.20%、73.07%,差异主要在0~20 cm土层;围封草地和中度放牧草地分别增加116.85%和133.71%,差异主要在0~40 cm土层;固定沙地比流动沙地增加49.44%,差异主要在0~20 cm土层。土地覆盖类型转变后,由于受到土壤容重的影响,土壤有机碳密度在0~20 cm土层变化较明显。8种土地覆盖类型可分为4组：CL1（农田）、CL2（新疆杨林地、围封草地、中度放牧草地）、CL3（樟子松林地、小叶锦鸡儿群落、固定沙地）和CL4（流动沙地）。另外,土壤有机碳含量和密度在土壤剖面上的分布也随着土地覆盖类型的变化而不同。     

明清北京休闲空间格局研究

从休闲地分布数量来看,西郊和内城西区成为明代北京最重要的休闲区域。而明中后期外城的兴建促进了外城休闲地的发展。清初的满汉分城而治的政策直接刺激了外城西区超过西郊成为最重要的休闲区域和全北京城的休闲娱乐中心。明清北京休闲区经历了形成和演变的过程。明代和清代各形成了14 处和19 处休闲区,其中积水潭—什刹海—鼓楼大街风景、园林游览与市场休闲区等在两朝保持了兴盛的态势,二闸泛舟段到清代取代了高梁河成为北京城近郊最重要的河上游览区。休闲地空间格局的形成和变迁常常是自然地理环境、区位、都城性质和功能、民俗文化、政治等因素综合作用下的结果。     

松辽平原黑土有机碳含量时空分异规律

松辽平原典型黑土分布区土壤有机碳的空间分异规律及不同开垦年限土壤有机碳含量变化的研究结果表明:随着纬度的增加,黑土总有机碳平均含量由11.43g/kg增加至20.83g/kg,有机碳组分含量和HA/FA比值均表现出增加的趋势。随着土壤剖面加深,黑土总有机碳及其组分含量均呈下降的趋势,土壤中的HA-C逐步被FA-C和HU-C所替代。土壤开垦前50年,黑土总有机碳及其组分含量下降迅速,以后下降趋于缓慢,至开垦130年后,有机碳含量水平基本处于相对稳定状态,变化不明显。     

皖江自然湿地土壤碳密度及其开垦为农田后的变化

于2005年分别采集了安徽沿江4个淡水湖泊的自然湿地及其周边围垦农田的代表性土壤剖面样品,测定了总有机碳含量,讨论了天然淡水湿地有机碳密度与深度分布特征及其开垦为农田后的变化。结果显示,湿地表层（0～30cm）和全剖面（0～100cm）中的碳密度分别为42．5～57．4t／hm^2和81．5～91．6t／hm^2;而农田则分别为22．4～48．4t／hm^2和41．4～76．5t／hm^2。湿地开垦为农田后,土壤表层和全剖面的土壤有机碳含量明显降低,且有机碳含量的变异性增大。表明湿地开垦为农田后,其碳库失去稳定性。但是,开垦的旱地土壤的有机碳含量和碳密度显著低于开垦的稻田,故湿地开垦为旱地更不利于湿地碳库保护。因而,将湿地垦殖为水田是相对较有利于湿地碳库保护的人为土地利用方式。湿地开垦的碳库损失可能是土壤的大气CO2源效应的主要途径。     

Spatial Analysis of the Soil Carbon Sequestration Potential of Crop-residue Return in China Based on Model Simulation

Crop-residue return is a recommended practice for soil and nutrient management and is important in soil organic carbon (SOC) sequestration and CO₂ mitigation. We applied a process-based Environmental Policy Integrated Climate (EPIC) model to simulate the spatial pattern of topsoil organic carbon changes from 2001 to 2010 under 4 crop-residue return scenarios in China. The carbon loss (28.89 Tg yr^-1) with all crop-residue removal (CR0%) was partly reduced by 22.38 Tg C yr^-1 under the status quo CR30% (30% of crop-residue return). The topsoil in cropland of China would become a net carbon sink if the crop-residue return rate was increased from 30% to 50%, or even 75%. The national SOC sequestration potential of cropland was estimated to be 25.53 Tg C yr^-1 in CR50% and 52.85 Tg C yr^-1 in CR75%, but with high spatial variability across regions. The highest rate of SOC sequestration potential in density occurred in Northwest and North China while the lowest was in East China. Croplands in North China tended to have stronger regional SOC sequestration potential in storage. During the decade, the reduced CO₂ emissions from enhanced topsoil carbon in CR50% and CR75% were equivalent to 1.4% and 2.9% of the total CO₂ emissions from fossil fuels and cement production in China, respectively. In conclusion, we recommend encouraging farmers to return crop-residue instead of burning in order to improve soil properties and alleviate atmospheric CO₂ rises, especially in North China.