喀斯特小流域土壤石砾分布特征及其影响因素

为探究喀斯特土壤石砾含量的影响因素、形成机制及其分布规律,采集了3 180个土壤样品,分析后寨河流域不同影响因素下土壤石砾含量的分布规律,并利用相关性分析得出了影响后寨河流域土壤石砾含量的主要影响因子。结果表明,坡度、岩性、土层厚度和植被类型是影响土壤石砾含量分布的主要影响因素,其中坡度对喀斯特地区土壤石砾含量的分布特征影响作用最大。在不同坡度条件下,土壤石砾含量的分布规律为:坡度<30°时随坡度增加,土壤石砾含量增大。坡度>30°时随坡度增加,土壤石砾含量减小。不同土层厚度下,土壤石砾含量分布规律为:随土层厚度增加,土壤中石砾含量减少。植被类型不同,土壤石砾含量大小排序为:灌木>草本>乔木。不同岩性发育形成土壤,土壤石砾含量大小排序为:白云岩>石灰岩>泥灰岩>第四纪黄粘土>砂页岩。喀斯特地区岩性决定风化成土速率和土壤石砾总量,是土壤石砾含量的物质来源基础。坡度是促进土壤石砾含量迁移、再分配的驱动因素,植被类型和土层厚度是影响土壤石砾含量的响应因素。      

喀斯特石漠化治理措施对土壤颗粒有机碳与团聚体有机碳的影响

文章以耕地为对照,分析不同石漠化治理措施（花椒林和次生林）对土壤0~20 cm土层有机碳(SOC)、颗粒有机碳(POC)、矿物结合有机碳(MOC)和团聚体有机碳的影响,探讨POC、MOC与SOC、团聚体有机碳的关系。结果表明：与耕地相比,花椒林和次生林均不同程度提高SOC、POC、MOC和团聚体有机碳含量。0~10 cm土层次生林SOC含量和各粒径团聚体有机碳含量均显著高于耕地和花椒林,在10~20 cm土层无显著差异;0~20 cm土层花椒林和次生林土壤POC含量显著高于耕地,MOC无显著差异。POC/SOC范围为20.38%~45.27%,花椒林和次生林显著高于耕地。相反,MOC/SOC为耕地显著高于花椒林和次生林 。退耕为花椒林和次生林后,SOC含量的增加主要以POC含量增加为主。次生林和花椒林>2 mm粒径对SOC贡献率显著高于耕地,但0.25~2 mm粒径、0.053~0.25 mm粒径和 < 0.053 mm粒径对SOC贡献率显著低于耕地。其相关分析表明：POC、MOC与SOC、团聚体有机碳的关系均呈正相关,表现为次生林 > 花椒林 > 耕地。退耕恢复为花椒林和次生林后,SOC、POC和MOC增加量与团聚体有机碳增加量显著相关,其以次生林的相关性较强。石漠化治理措施改变SOC物理组分及其组成以及它们之间的关系,从而促进有机碳的积累。     

岩溶山区土地利用方式对土壤活性有机碳及其分布的影响

对重庆中梁山不同土地利用方式下的0～50cm土壤活性有机碳含量和分布进行研究。结果表明:不同利用方式土壤有机碳(SOC)含量大小顺序为:竹林＞菜地＞草地＞林地＞园地＞弃耕地,且均表现为0～20cm层大于20～50cm层;土壤溶解性有机碳(DOC)含量平均值大小顺序为:林地＞竹林＞弃耕地＞草地＞园地＞菜地,土壤溶解性有机碳占土壤有机碳的比例随土层深度增加而增加;土壤易氧化有机碳(EOC)含量及其剖面分布与土壤有机碳含量变化相一致,相关分析表明,两者的相关性达到极显著水平(R=0.852,P＜0.0001),对土壤有机碳变化反应敏感。      

Chemically stabilized soil organic carbon fractions in a reclaimed minesoil chronosequence: implications for soil carbon sequestration

With adoption of appropriate reclamation strategies, minesoils can sequester significant amount of soil organic carbon (SOC). The objective of this study was to isolate different SOC fractions and coal-C in a reclaimed minesoil chronosequence and assess effects of increasing time since reclamation on each SOC fraction and selected soil properties. The chronosequence was comprised of four minesoils with time since reclamation ranging between 2 and 22 years. Total SOC (TSOC, summation of all SOC fractions), ranged between 20 and 8 g kg^?1, respectively, at the oldest (Mylan Park) and youngest (WVO1) minesite, indicating increasing SOC sequestration along the chronosequence. The humin fraction accounted for about 43 and 7 % of TSOC, respectively, at Mylan Park and WVO1, indicating increasing humification and biochemical stabilization of SOC with increasing time since reclamation. At WVO1, >60 % of TSOC was apportioned among the acid-hydrolysable (labile) and mineral-bound SOC fractions. Total soil carbon (TSC, TSOC + coal-C) were significantly (p < 0.05) related to the humin fraction in older minesoils, whereas with the acid-hydrolysable (labile) fraction in the younger minesoils indicating that C stabilization mechanisms differed substantially along the chronosequence. Coal-C was unrelated to any SOC fraction at all minesites indicating that SOC sequestration estimations in this chronosequence was unaffected by coal-C. Soil cation exchange capacity and electrical conductivity were significantly (p < 0.05) related to the humin fraction at Mylan Park while to the acid-hydrolysable and mineral-bound SOC fractions at WVO1 indicating that the relative influences of different SOC fractions on soil quality indicators differed substantially along the chronosequence.     

根系分泌的有机酸及其对喀斯特植物、土壤碳汇的影响

根系分泌的有机酸是土壤有机酸的重要动态来源,来源于光合作用固定的碳,是土壤碳流动的最活跃形式。根系分泌的有机酸是一种具有调节作用的植物和土壤碳汇。一方面,在喀斯特土壤环境中,植物根系分泌有机酸的含量增加,影响碳汇的产生和流动,直接调节植物与土壤的固碳增汇能力;另一方面,根系分泌的有机酸通过影响土壤中一系列的动态化学和生物学过程,对土壤养分有效性和养分循环以及微生物的活性产生深刻影响,直接影响土壤的固碳增汇能力,从而间接影响植物的固碳增汇能力。因此,根系分泌的有机酸在喀斯特生态系统的固碳增汇中起着重要作用。      

黑龙江省扎龙湿地及其周边地区土壤碳储量估算与1986年以来的变化趋势研究

以黑龙江省扎龙湿地及其周边地区多目标区域地球化学调查、第2次土壤普查数据为基础,通过不同土地利用方式下土壤全碳、有机碳密度、储量的估算,研究该地区20a来土壤碳库的变化趋势。结果显示：扎龙沼泽湿地区0-100cm土体的有机碳密度约为37884t／km^2;当沼泽地退化为草地或围垦为耕地后,土壤中有机碳的损失率高达66．...     

Spatial distribution of soil organic carbon and total nitrogen stocks in a karst polje located in Bosnia and Herzegovina

Karst poljes in the Dinaric Mountains have a complex hydrological regime and high potential for crop production. Little information is available about soil organic carbon (SOC), total nitrogen (TN), carbon stocks (SOCS), and nitrogen stocks (TNS) in karst poljes located in the Dinaric area. The objective of this paper was to study the spatial distribution of SOC and TN in topsoil (ranged from 9 to 53 cm depth) and whole profile SOCS and TNS (ranged from 15 to 160 cm depth) in the Livno karst polje depression (Bosnia and Herzegovina) using kriging and co-kriging approaches. We used the following properties as co-variates: distance from hills (DFH), distance from the lake (DFL), sand, silt, and clay content, TN, SOC, SOCS, and TNS. We only used the properties that had a significant correlation with the estimated properties as co-variates. The results showed that soils in the study area had high average SOC (7.92%), TN (0.79%), SOCS (191.05 t ha^?1), and TNS (17.91 t ha^?1) values. Histosols had the highest SOCS and TNS and Arenosols the lowest. The experimental variogram of LogSOC and LogTN was best-fitted by the spherical model, while the exponential model was the most accurate for LogSOCS and LogTNS. The spatial dependence was moderate for all studied soil properties. The incorporation of auxiliary variables increased the precision of the estimations from 35.7% (SOC?×?TN) to 49.2% (TNS?×?SOCS).     

Soil organic carbon fractions and microbial community and functions under changes in vegetation: a case of vegetation succession in karst forest

The vegetation community succession influences soil nutrient cycling, and this process is mediated by soil microorganisms in the forest ecosystem. A degraded succession series of karst forests were chosen in which vegetation community changed from deciduous broadleaved trees (FO) toward shrubs (SH), and shrubs–grasses (SHG) in the southwest China. Soil organic carbon (SOC), total nitrogen (TN), labile organic carbon (LOC), water extractable organic matter (WEOM), microbial biomass carbon and nitrogen (MBC and MBN), bacterial and fungal diversity, as well as soil enzyme activities were tested. The results showed that SOC, LOC, MBC, MBN, and enzyme activities declined with vegetation succession, with the relatively stronger decrease of microbial biomass and functions, whereas WEOM was higher in SHG than in other systems. In addition, soil bacterial and fungal composition in FO was different from both SH and SHG. Despite positive relationship with SOC, LOC, and TN (p < 0.01), MBC, MBN appeared to be more significantly correlated to LOC than to SOC. It suggested that vegetation conversion resulted in significant changes in carbon fractions and bioavailability, furthermore, caused the change in soil microbial community and function in the forest ecosystem.     

基于RapidEye影像的蚂蝗田小流域土壤侵蚀与岩溶石漠化分析

依据《岩溶地区水土流失综合治理技术标准》(SL461-2009),以蚂蝗田岩溶小流域为研究对象,实地测量了22组典型地物光谱,发现岩石和土壤在红光-近红外二维光谱特征空间具有线性分布规律,由此推导出土壤—岩石指数方程,并构建了岩溶区土壤侵蚀与石漠化强度分析技术流程。在此基础上,利用研究区RapidEye卫星遥感影像,通过提取土地利用、植被覆盖度、基岩裸露率和坡度等指标因子信息,实现了土壤侵蚀与岩溶石漠化强度的分析评价。研究发现:岩溶区土壤侵蚀与植被覆盖度呈负相关性,与坡度和基岩裸露率无单向相关性;岩溶石漠化与植被覆盖度呈负相关性,与坡度呈正相关性,与基岩裸露率呈线性相关。      

Stable carbon isotopic composition of soil organic matter in the karst areas of Southwest China

This study dealt with the distribution characteristics of soil organic carbon （SOC） and the variation of stable carbon isotopic composition （δ^13C values） with depth in six soil profiles, including two soil types and three vegetation forms in the karst areas of Southwest China. The δ^13C values of plant-dominant species, leaf litter and soils were measured using the sealed-tube high-temperature combustion method. Soil organic carbon contents of the limestone soil profiles are all above 11.4 g/kg, with the highest value of 71.1 g/kg in the surface soil. However, the contents vary between 2.9 g/kg and 46.0 g/kg in three yellow soil profiles. The difference between the maximum and minimum δ^13C values of soil organic matter （SOM） changes from 2.2‰ to 2.9‰ for the three yellow soil profiles. But it changes from 0.8‰ to 1.6‰ for the limestone soil profiles. The contrast research indicated that there existed significant difference in vertical pattems of organic carbon and δ^13C values of SOM between yellow soil and limestone soil. This difference may reflect site-specific factors, such as soil type, vegetation form, soil pH value, and clay content, etc., which control the contents of different organic components comprising SOM and soil carbon turnover rates in the profiles. The vertical variation patterns of stable carbon isotope in SOM have a distinct regional character in the karst areas.     

Volume-based soil particle fractal relation with soil erodibility in a small watershed of purple soil

The particle size distribution in small watershed changes under different land uses and affects soil erodibility. The aims of this study were (1) to investigate the volume fractal dimension of particle size distribution under different land uses in a typical small watershed of purple soil, (2) to estimate soil erodibilities of various land uses utilizing the Erosion-Productivity Impact Calculator (EPIC) model and the nomogram (NOMO) model, and (3) to relate volume fractal dimension with the soil erodibility used in the Universal Soil Loss Equation (USLE) in purple soil areas. Laser diffractions and double-logarithmic model were used to measure and calculate volume fractal dimension values. The results show that soil volume fractal dimensions were well linearly fitted to the double-logarithmic model with high correlation coefficients of 0.902–0.936 under six land uses in the small watershed. The averaged volume fractal dimension values under different land uses, from high to low were in the order of Zea mays L, Ipomoea batatas, Citrus reticulata Blanco, Setaria viridis, Robinia pseudoacacia L, Pinus massoniana Lamb. The volume fractal dimension was positively correlated to clay particle fraction (R = 0.933). The average soil erodibility values under different land uses from high to low were in the order of Setaria viridis, Citrus reticulata Blanco, Pinus massoniana Lamb, Zea mays L, Ipomoea batatas, Robinia pseudoacacia L while average soil erodibilities from high to low values were in the order of Setaria viridis, Citrus reticulata Blanco, Zea mays L, Ipomoea batatas, Pinus massoniana Lamb, Robinia pseudoacacia L. The soil erodibilities calculated by the two models were similar, and positively correlated (R = 0.630–0.877). The volume fractal dimension values of six land uses were negatively correlated to both soil erodibility estimated by EPIC and by NOMO models. Moreover, the correlations of the volume fractal dimension values of Zea mays L, Ipomoea batatas and Citrus reticulata Blanco estimated by EPIC or NOMO were lower than those of Pinus massoniana Lamb, Robinia pseudoacacia L and Setaria viridis. Further research is needed to determine the influence of volume fractal dimension on the soil erodibility under different land use and managements.     

Assessment of soil erosion in a small watershed covered by loess

Loose sediments like loess are easily erodable especially on hillslopes used for agriculture. Erosion contributes to the sedimentation and pollution of lakes such threatening quasi-natural ecosystems. On the other hand soil erosion damages fertile soils.The aim of the present paper is the assessment of soil and nutrient loss in a tributary catchment of Lake Balaton, including geoecological aspects of the lake ecosystem and of the slopes mantled by loess.The USLE is applied for small topological units, for the so called erotops. Rainfall simulation experiments were applied for the determination of the erodibility of soils. The calculation is based on a new, GIS aided method. Control measurements have been going on for four years at a gauging station to check how much sediment and water actually leaves the catchment.Results of sediment yield measurements were compared with the results obtained by the application of USLE for the whole catchment. According to this comparison only 2% leaves the catchment so that redeposition processes within the catchment are very important whereas the contribution of soil erosion to the eutrophication of the lake is not very significant in the small tributaries in the northern part of Lake Balaton catchment.     

重庆西部表层土壤有机碳储量与密度分布

利用多目标区域地球化学调查数据,估算了重庆西部地区表层土壤有机碳密度和储量。结果表明,重庆西部地区表层(0~20 cm)土壤有机碳储量为41 038 589 t,平均密度为2 929 t·km-2。从地貌类型看,低山(2 984 t·km-2)和中山(2 986 t·km-2)区土壤有机碳密度较高,丘陵区(2 628 t·km-2)最低,山地土壤有机碳储量最丰富。不同类型土壤中,石灰土有机碳平均密度最高(5 043 t·km-2),其次为黄壤(3 756 t·km-2),紫色土最低(2 329 t·km-2),紫色土有机碳储量最大。就土地利用方式而言,林地土壤有机碳平均密度最高(4 071 t·km-2),耕地土壤处于中等水平(2 752 t·km-2),居民及建筑用地有机碳密度最低(2 416 t·km-2),耕地土壤有机碳储量最大。与第二次土壤普查数据对比发现,该区土壤有机碳储量和密度呈降低趋势,表层土壤作为碳源向大气释放碳,尤其是江津、潼南地区土壤有机碳密度分别降低了56.7%、45.1%。     

The dynamics of organic matter in soil size and density fractions traced by stable carbon isotopes

1IntroductionSoilorganicmatter (SOM)isakeysourceofnutrientsforplantgrowth ,itisessentialforthemaintenanceofsoilstructureanditcontributestotheabilityofsoiltoretainnutrientsandwater.AnimprovedunderstandingofSOMdynamicsiscentraltothedevelopmentofmoreenvironmentallysoundandsustainablepracticesofagriculturalmanagement (Collinsetal.,2 0 0 0 ) .Avarietyofcon ceptualmethodshavebeenusedtodescribetheprocessesofSOMaccumulationandturnover (Jen kinsonandRayner,1 977;Duxburyetal.1 989;Partonetal.,1 99…     

珠江三角洲经济区土壤碳储量及有机碳时空变化规律研究

土壤碳库是陆地碳库生态系统的主体,在全球碳平衡中具有重要的作用。通过开展珠江三角洲经济区多目标区域地球化学调查,获得了土壤全碳及有机碳数据,采用"单位土壤碳量"方法计算土壤碳储量,显示珠江三角洲经济区土壤有机碳总体分布:表层(0～0.2 m)土壤有机碳为9.71×107 t,碳密度为2271.34 t/km2;中层(0～1.0 m)土壤有机碳为3.71×108 t,碳密度为8666.05 t/km2;深层(0～1.8m)土壤有机碳为5.87×108 t,碳密度为13722.73 t/km2。对比其他地区,珠江三角洲土壤碳密度处于较低水平。分析了土壤、土地利用、地貌类型与成土母质对区域土壤碳库的影响程度,不同土壤单元有机碳储量分布特征。与第二次土壤普查比较,20年期间珠江三角洲表层土壤有机碳总体减少0.22×108 t,损失幅度达19.20%,仅惠州等地区有所增加。不同生态系统土壤有机碳减少程度不同。     

Low carbon storage of woody debris in a karst forest in southwestern China

The properties of woody debris (WD) vary across different forests under various soil conditions. Owing to the relatively shallow and low amounts of soils on karst terrains, it is necessary to determine the WD carbon inventory of karst forests. In this study, we recorded WD with a basal diameter for standing snags and the large-end diameter for fallen logs of ≥ 1 cm. The carbon density of WD in a secondary karst mixed evergreen and deciduous broad-leaved forest that had been clear-cut 55 years ago in southwestern China were inventoried in a 2 ha plot. Woody debris carbon density calculated using specific gravity and carbon concentration was 4.07 Mg C ha⁻¹. Woody debris with diameters ≥ 10 cm (coarse WD) constituted 53.8% of total carbon storage whereas WD < 10 cm in diameters (fine WD) accounted for more pieces of WD (89.9%). Lithocarpus confinis contributed the most WD carbon (26.5%). Intermediate decayed WD was relatively more abundant, but WD with final decay contributed the least to the total pieces of WD (6.7%). The contribution of WD to carbon storage of karst forest was low compared to other forests worldwide. Significant positive correlations were found between WD carbon and biodiversity (R² = 0.035, p < 0.01) and elevation (R² = 0.047, p < 0.01) and negative correlations was found in outcrop coverage (R² = 0.034, p < 0.01). Further studies are needed to elucidate the ecological functions of WD to better understand their roles in maintaining biodiversity, enhancing productivity, and controlling vegetation degradation in karst forest ecosystems.

     

Spatial heterogeneity of soil organic matter and soil total nitrogen in a Mollisol watershed of Northeast China

The spatial heterogeneity of soil nutrients influences crop yield and the environment. Previous research has focused mainly on the surface layer, with little research being carried out on the deep soil layers, where high root density is highly related to crop growth. In the study, 610 soil samples were collected from 122 soil profiles (0–60 cm) in a random-sample method. Both geostatistics and traditional statistics were used to describe the spatial variability of soil organic matter (SOM) and total nitrogen (TN) deeper in the soil profile (0–60 cm) with high root density from a typical Mollisol watershed of Northeast China. Also, the SOM and TN in farmland and forest (field returned to forest over 10 years) areas was compared. The spatial autocorrelations of SOM at 0–50 cm depth and TN at 30–60 cm depth were strong, and were mainly influenced by structural factors. Compared to farmland, SOM and TN were typically lower in the 0–30 cm depth of the forest areas, while they were higher in the 30–60 cm depth. As well, both SOM and TN decreased from the 0–20 cm layer to the 30–40 cm layer, and then discontinues, while they continuously decreased with increasing soil depth in the farmland. SOM and TN were typically higher at the gently sloped summit of the watershed and part of the bottom of the slope than at mid-slope positions at the 0–30 cm depth. SOM and TN were lower on the back slope at the 30–60 cm depth, but were higher at the bottom of the slope. Also, the spatial distribution of the carbon storage and nitrogen storage were all highest at the bottom of the slope and part of the summit, while they were lowest in most of back slope in depth of 0–60 cm, and mainly caused by soil loss and deposition. SOM at 0–60 cm and TN at 0–40 cm greater than the sufficiency level for crop growth (3.7–79.2 and 0.09–3.09 g kg^?1, respectively) covered 99 % of the total area, yet for TN, over 35 % of the total area was less than the insufficiency level at the 40–60 cm depth. Generally, accurately predicting SOM and TN is nearly impossible when based only on soil loss by water, although the fact that variability is influenced by elevation, soil loss, deposition and steepness, was shown in this research. Nitrogen fertilizer and manure application were needed, especially in conjunction with conservation tillage in special conditions and specific areas such as the back slope, where soil loss was severe and the deep soil that lacked TN was exposed at the surface.     

渝东南岩溶山地土地利用方式对土壤有机碳时空分布特征的影响

通过野外调查、采样和分析,运用地统计学方法,选择旱地、稻田、菜园和果园四种地利用方式,分析了渝东南秀山、黔江、酉阳三地土壤有机碳(SOC)的时间和空间分布特征。结果表明:空间上,在耕作层和心土层SOC含量都是菜园最大,旱地最小,且差异显著;而底土层果园最大,稻田最小,差异不显著;不同的土地利用方式对土壤剖面SOC含量的影响一致,自上而下依次降低,均为耕作层SOC含量最高,底土层最低,稻田降幅最大,旱地最小,且差异显著;时间上,与1984年第二次土壤普查相比,除旱地外20多年来渝东南岩溶区0~20cm耕层SOC含量普遍升高,其中菜园的增加幅度最大,稻田最小。但总的来说,研究区岩溶山地土壤有机质含量普遍较低,建议通过人为施肥提高有机质的含量,探索和推广应用免耕、少耕、秸秆还田等耕作措施,增加农田土壤固碳能力。      

溶蚀丘陵型岩溶流域概念性水文模型及其应用

为弥补传统概念性水文模型在岩溶水文模拟上的缺陷,基于三水源新安江模型,采用多个线性水库表达岩溶地下系统的异质性,同时引入流域虚拟面积系数修正岩溶流域的非闭合性。将改进的概念性水文模型应用于湘中南典型溶蚀丘陵型岩溶流域,并在此基础上探讨岩溶流域非闭合性的动态变化。研究结果表明:①改进模型的日径流模拟精度提高11.21%,水量平衡误差及低水误差分别降低23.29%、27.64%;②岩溶地下汇流系统的多向性导致流域非闭合状态具有双重性;③地下汇流面积与时段降雨量呈正相关,然而受地下饱和程度的制约,地下汇流面积的变化率随时段降雨量的增大而减小;④由于岩溶地貌的蓄水滞水作用,地下流域受外侧补给的过程存在滞后性。模型的改进与拓展研究可为岩溶水文模拟提供新思路。