The sensitivity of water extractable soil organic carbon fractions to land use in three soil types

Soil organic carbon (SOC) has a high impact on the sustainability of ecosystems, global environmental processes, soil quality and agriculture. Long-term tillage usually leads to SOC depletion. The purpose of this study was to determine the impact of different land uses on water extractable organic carbon (WEOC) fractions and to evaluate the interaction between the WEOC fractions and other soil properties. Using an extraction procedure at 20°C and 80°C, two fractions were obtained: a cold water extractable organic carbon (CWEOC) and a hot water extractable organic carbon (HWEOC). The results suggest that there is a significant impact from different land uses on WEOC. A lower relative contribution of WEOC in SOC and a lower concentration of labile WEOC fractions are contained in arable soil compared to forestlands. Chernozem soil was characterized by a lower relative contribution of WEOC to the SOC and thus higher SOC stability in contrast to Solonetz and Vertisol soils. Both CWEOC and HWEOC are highly associated with SOC in the silt and clay fraction (<53 µm) and were slightly associated with SOC in the macroaggregate classes. The WEOC fractions were highly and positively correlated with the SOC and mean weight diameter.     

适宜超高压处理条件脱除大蒜臭味保持抗氧化和抑菌能力

为了提升大蒜头产品的品质,该研究将超高压技术应用于大蒜头产品处理中,探究了在200、300、400、500 MPa压力条件下处理10 min,大蒜风味物质,尤其是含硫挥发性化合物的变化,同时考察超高压对大蒜主要活性成分大蒜素含量、抗氧化和抑菌能力的影响.试验结果表明,超高压处理较于在95℃下60 s的蒸汽漂烫处理,不仅具有良好的杀菌作用,同时还可以去除大蒜中的刺激性风味,起到脱臭作用.大蒜经500 MPa处理后,主要蒜臭味嗅感物质二烯丙基二硫化物含量降低至30.69%,经过热处理的大蒜,二烯丙基二硫醚化合物则降低至54.68%,与超高压处理后的大蒜具有显著性差异(P<0.05).500 MPa处理后的大蒜中大蒜素浓度上升至0.079 mmol/L,高出热处理组具有显著性差异(P<0.05);铁离子还原能力较热处理组高出64.24%,具有显著性差异(P<0.05),1,1-二苯基-2-三硝基苯肼清除率高出热处理组28.68%,具有显著性差异(P<0.05);经热处理后的大蒜均丧失全部抑菌能力,而超高压处理后的大蒜对不同种的细菌仍具有一定的抑菌能力,对黑曲霉的抑菌能力与无处理组无显著差异.相关性分析结果显示,大蒜的抑菌能力与硫醚类化合物显著相关(r>0.884),与二烯丙基二硫醚、总酚含量未呈现显著相关,抗氧化能力未与硫醚类化合物含量、二烯丙基二硫醚、总酚呈显著相关趋势.研究结果为大蒜头产品的品质改良提供参考.     

不同土壤类型和农业用地方式对土壤微生物量碳的影响

通过野外调查与室内分析,研究了山东桓台县3种土壤类型(潮土、褐土和砂姜黑土)与农业用地方式(林地、菜地和粮田)对土壤表层(0—10.cm)微生物量碳的影响。结果表明,不同农业用地方式对微生物量碳的影响较大,3种利用方式的微生物量碳含量差异显著,依次为:粮田>菜地>林地;土壤类型不同,土壤微生物量碳含量也不相同。任何一种土壤,菜地的N、P、K含量都高于粮田和林地;有机质含量粮田>菜地>林地;pH值林地>粮田>菜地。全N、有机质与土壤微生物量碳呈极显著正相关,有效P与微生物量碳呈弱负相关,速效K、pH值和微生物量碳不相关。不同用地方式下土壤养分与微生物量碳的相关程度不同。秸秆还田和施用有机肥有利于提高土壤中微生物量碳水平,施用化肥在一定程度上能够增加微生物量碳。     

不同利用方式对棕壤有机碳垂直分布的影响

采用野外采样和室内分析的方法研究了林地、园地、耕地3种利用方式对典型棕壤总有机碳(TOC)、颗粒有机碳(POC)及重组有机碳(HFOC)在0～20 cm、20～40 cm、40～60 cm 3层次中垂直分布的影响。结果表明,与林地相比,园地和耕地各层次的TOC含量和储量均显著下降;其分布份额和分布比则为园地中、下层略向上层转移,耕地则明显向中、下层转移。3种利用方式下POC的相对数量均随土层加深而递减,林地开垦为园地和耕地后,POC的相对数量仅在园地上、中层显著降低,分别减少6.67和1.70个百分点,而耕地则各层次均显著降低,其相对数量分别减少13.65、5.43和3.03个百分点;HFOC的相对数量随干预强度和土层深度增加而增大,耕地和园地比林地分别高出:上层5.77和4.00个百分点、中层10.44和6.40个百分点、下层7.35和3.92个百分点,且差异均显著。因此,将林地棕壤开垦为园地或耕地后应注重有机物料的投入,以减缓因开垦对有机碳所造成的损失和不尽合理的分布状况。     

基于GIS的土壤有机碳储量核算及其对土地利用变化的响应

土地利用变化是影响土壤有机碳储量变化的重要驱动因素,为了进一步探讨土地利用变化对土壤碳储量的影响,该文根据土壤样点数据、土壤类型图、土地利用类型图,分析了江苏省1985年和2005年表层土壤有机碳密度的变化以及土地利用变化对表层土壤有机碳密度的影响,主要结论如下：1）江苏省表层土壤有机密度的空间变化趋势为：黄淮平原生态区南北差异明显,北部的沂沭泗平原丘岗以增加为主,南部的淮河下游平原以减少为主;沿海滩涂与海洋生态区持平为主;而长江三角洲平原生态区表现不一：沿江平原丘岗生态亚区以增加为主,而茅山宜溧低山丘陵生态亚区和太湖水网生态亚区均表现为有机碳密度的减少;2）各地类表层土壤有机碳密度均有所增加;耕地-林地、草地;草地-林地、建设用地;建设用地-耕地、草地、林地;水域的转出以及未利用地的转出等转换类型有利于土壤碳储量的增加、其他地类间的转换会造成一定的碳排放。     

土地整理对农田土壤碳含量的影响

土地整理对土壤的强扰动会影响土壤的碳循环平衡,为了研究土地整理对农田土壤碳含量的影响,通过间接采样和随机采样方法,采集了江苏3个土地整理区土地整理前后土样进行有机质测定,初步分析了不同土地整理区土地整理后的土壤碳含量变化及其变化差异原因。主要结论有：1）通过土地整理,3个土地整理区土壤碳含量都有得到提高。其中,苏南丹阳土地整理区碳质量分数提高了26.05%,碳密度提高23.87%,提高幅度最大,碳密度变化方向与碳含量变化具有一致性,但提高幅度低于碳含量。这与各整理区原有土质、土地整理工程施工方式、施工时间等因素密切相关。2）水田碳质量分数显著高于旱地碳质量分数,但是经过土地整理旱地碳含量提高幅度大于水田,水田在整理前后碳含量变化幅度不大。3）在土地整理项目实施前应制定适宜的土地整理规划,实施有利于土壤固碳的土地整理工程。     

Soil organic carbon as affected by land use in young and old reclaimed regions of a coastal estuary wetland,China

Soil organic carbon (SOC) and selected soil properties were measured in fringe and ditch marshes and cropland of old and young reclaimed areas in a subtropical estuary in China in order to investigate the effects of land use and reclamation history on SOC. The results show that after the conversion of wetlands to cropland, a longer reclamation history (>20 yr) resulted in greater soil bulk density, salinity, clay and silt, and lower soil moisture, SOC and sand content, whereas a shorter reclamation history (<20 yr) induced smaller values for soil pH, moisture and sand. Ditch marshes had greater average SOC in the top 50 cm than fringe marshes and cropland. SOC decreased generally down soil profiles from 0 to 50 cm in depth, except for the obvious accumulation of SOC in deeper soils from old fringe and young ditch marshes. Ditch marshes had the greatest SOC densities in the top 50 cm in both regions compared to the other land uses. SOC densities in the top 50 cm were less in croplands than in fringe marshes in the young region, while there were no significant differences between them in the older one. Except for cropland, SOC densities in the top 50 cm of the fringe or ditch marshes in the old region were not significantly different from those in the young region. SOC in both regions was reduced by 13.53 × 10⁴ t (12.98%) in the top 50 cm of the marshes after conversion to cropland, whereas the regional SOC storage increased by 29.25 t when ditch marshes were included. The results from regression analysis show that bulk density and soil moisture significantly influenced SOC. The total SOC stored in both ditch marshes and croplands was higher compared to fringe marshes. The regional SOC storage in the top 50 cm was not reduced after reclamation due to C accumulation in the ditch marshes. The regional effects of cultural practices should be taken into account in devising strategies for managing soils in coastal wetlands, particularly in the developing world.     

中国东南部丘陵红壤地区的土地可持续利用

In the present work,an integrated analysis of natural and socio-economic conditions in the hilly red soil region of southeastern China is made by means of a Geographic Information System.Particular emphasis lies on soil degradation and other adverse ecological and environmental effects of the prevalent and irrational land-use systems of mono-and valley-agriculture in the region.Moreover,taking into account the simultaneous existence of enormous potentials and serious constraints and the high diversity and complexity of the biophysical and socio-economic environments,a set of strategies and countermeasures are also proposed for appropriate management of environmental resources,in terms of maintaining harmony between utilization and coservation of the natural environment,including 1) adjustment of the agricultural structure and optimization of ecological patterns of stereo-agriculture;2) improvement and integrated exploitation of the low-yield lands and wastelands;3) ehabilitation and conservation of soil and water resources;and 4) establishment of production bases of tropical and subtropical cash crops and fruits.     

雨强和土地利用方式对黄土丘陵区水土流失的影响

为了更好掌握黄土丘陵区雨强和土地利用方式对水土流失的影响规律和机理,利用人工降雨模拟器,设计了5种雨强和4种土地利用方式的区组试验,对水土流失进行了定量研究。结果表明：雨强对不同土地利用方式的产流产沙都呈极显著的正效应,4种土地利用方式的地表平均产流产沙与雨强均呈幂函数显著增长趋势;5种雨强的平均地表产流量为林地＞休闲耕地＞栽培草地＞草地,平均产沙量分别为休闲耕地＞栽培草地＞草地＞林地,产流与产沙没有呈现完全的对应关系。如果没有林冠层、灌木层和枯枝落叶层对降雨的截留、阻滞和消弱,林地产流量高于其他土地利用方式,但具有良好的保土效果,而草地具有良好的保水和保土效果。     

Assessing scale effects on modelled soil organic carbon contents as a result of land use change in Belgium

This paper explores the influence of spatial scale on modelled projections of soil organic carbon (SOC) content. The effect of land use change (LUC) on future SOC stocks was estimated using the Rothamsted Carbon model for a small area of southern Belgium. The study assumed no management change and used a single climate change scenario. Three model experiments were used to identify how data scale affects predicted SOC stocks: (i) using European LUC datasets at a resolution of 10′ and assuming equal distribution of change within the study area, (ii) using more accurate regional data aggregated to the 10’ resolution, and (iii) using the regional data at a spatial resolution of 250 m. The results show that using coarse resolution (10′) data is inappropriate when modelling SOC changes in the study area as only the methods using precise data predict a change in SOC stocks similar to those reported in the literature. This is largely because of differences in model parameterisation. However, precisely locating LUC does not significantly affect the results. The model, using either pan‐European or region‐specific precise data predicts an average SOC increase of 1 t C ha^?1 (1990–2050), mainly resulting from afforestation of 13% of agricultural land.     

黄土高原半干旱区不同土地利用下的土壤有机碳、碳组分和土壤营养

Cropland (CP), native grassland (NG) and two shrub land treatments which were converted from cropland in 1985:seabuckthorn (Hippophae rhamnoides L. ) (ST), and branchytamarisk (Tamarix ramosissima) (BT) were investigated to evaluate effects of land use conversion on soil organic carbon (SOC) and soil nutrients in the semi-arid region of the Loess Plateau of China. Total organic carbon (TOC), light fraction organic carbon (LFOC), heavy fraction organic carbon (HFOC), total N (TN), nitrate nitrogen (NO₃^--N) and nitrite nitrogen (NO₂^--N), ammonium nitrogen (NH₄⁺-N), total P, and available P (AP) were measured. The results showed that SOC in NG, ST and BT were 12.7%, 27.7% and 34.8% higher than that of the cropland, respectively. LFOC, light fraction (LF) dry matter, ratio of TOC to TN (C/N) and the ratio of TOC to AP (C/P) were higher in the shrub land or native grassland than in the cropland. Cropland had the highest TN, the sum of NO₃^--N and NO₂^--N, TP and AP due to the use of chemical fertilizers. TOC significantly correlated with LFOC, HFOC and C/N. LFOC significantly correlated with dry matter of the LF and C/N. TN, the sum of NO₃^--N and NO₂^--N and AP were significantly negatively correlated with TOC and LFOC. Therefore, land use conversion from cropland to shrub land, or maybe grassland, contributed to SOC sequestration and improved soil nutrients stabilization.     

不同土地利用方式对棕壤有机氮组分及其剖面分布的影响

研究了典型棕壤不同土地利用方式对有机氮组分及剖面分布的影响。结果表明,三种利用方式对耕层(020.cm)有机氮各组分影响最大。有机氮各组分含量总体趋势为林地柞树林地耕地,林地与柞树林地有机氮组分都是随剖面的加深而降低且基本达显著水平,耕地有机氮各组分在剖面中分布则明显不同。三种利用方式下土壤有机氮组分均以酸解性氮占主体,其占全氮的比例随利用程度的加强和剖面的加深而降低,非酸解性氮则相反。有机氮各组分占酸解氮的比例林地与柞树林地相同,均为氨基酸氮酸解未知态氮酸解氨态氮氨基糖氮;耕地为酸解未知态氮氨基酸态氮酸解氨态氮氨基糖态氮,其中酸解氨态氮的比例在040.cm土层明显高于林地、柞树林地。     

Soil organic carbon in some land uses of Costa Rica

The native vegetation in the Tropics is increasingly replaced by crops, pastures, tree plantations, or settlements with contradictory effects on soil organic carbon (SOC). Therefore, the general objective was to estimate the SOC stock depth distribution to 100-cm depth in soils of Costa Rica and to assess their theoretical carbon (C) sink capacity by different management practices. A study was established in three ecoregions of Costa Rica: the Isthmian-Atlantic Moist Forest (AM), the Pacific Dry Forest (PD), and the Montane Forest (MO) ecoregions. Within each ecoregion, three agricultural land uses and a mature forest were sampled to 100-cm depth. The SOC stock in 0–100 cm depth was 114–150 Mg C ha^?1 for AM, 76–165 Mg C ha^?1 for PD, and 166–246 Mg C ha^?1 for MO. Land use had only weak effects on SOC concentrations and stocks except at PD where both were lower for soils under mango (Mangifera indica) and pasture. This may indicate soil degradation which was also supported by data on SOC stratification. However, it was generally unclear whether differences among land uses within each ecoregion already existed particularly at deeper depths before land-use change, and whether the sampling approach was sufficient to investigate them. Nevertheless, about 26–71% of Costa Rica's total C emissions may be offset by SOC sequestration in agricultural and forest soils. However, ecoregion-specific practices must be implemented to realize this potential.     

伊金霍洛旗不同土地利用方式下的土壤养分特征

为分析内蒙古鄂尔多斯市伊金霍洛旗在4类土地利用方式(灌木林地、采矿用地、天然牧草地和农地)下,土壤养分质量分数的差异性,运用野外采样和室内化验、分析相结合的方法,测定4种土地类型在0～30 cm土层的土壤有机质和全量氮磷钾质量分数及pH值.结果表明:1)4类土地在0～ 30 cm土层的土壤有机质和全氮质量分数存在显著差异,土壤全磷量和全钾量差异不显著(P＜0.05),土壤有机质质量分数依次为农地＞天然牧草地＞灌木林地＞采矿用地,土壤全量氮磷钾最大值分别为天然牧草地、天然牧草地和灌木林地,最小值分别为采矿用地、灌木林地和天然牧草地;2)在垂直剖面上,采矿用地和天然牧草地的有机质质量分数随着土层深度的增加逐渐减小,农地和灌木林地的有机质质量分数最大值出现在20～30 cm深度的土层,4类土地的土壤全氮量和全磷量均有随土层深度的增加而下降的趋势,全钾量随土层深度的变化不明显.4类土地的土壤全氮和全钾质量分数整体而言较为理想,全磷和有机质质量分数欠缺.农地全磷质量分数基本能满足主要作物的生长需求,有机质和全氮质量分数不能满足主要作物的生长需求.本研究可为内蒙古中部工矿开采区土地合理利用以及退化的生态环境恢复等提供科学依据.     

黄土高原沟壑区不同年限苹果园土壤碳氮磷变化特征

管理措施是影响土壤质量演变的重要因素.分析和讨论了5、10、15年苹果园耕层(0―20 cm)和0―200 cm土壤有机碳、全氮、全磷、有效磷和硝态氮含量及其影响因素。结果表明,5年、10年和15年的塬面苹果园表层土壤有机碳依次为7.5、6.7和6.7 g/kg;全氮依次为0.94、0.85和0.83 g/kg;但土壤全磷和速效磷含量随着种植年限而增加,与5年苹果园相比,塬面10年苹果园土壤全磷、速效磷含量分别提高了11%、60%,并且磷素的变异性随年限而增加。坡地10年、15年和20年苹果园土壤有机碳依次为6.3、6.2 和6.5 g/kg,全氮依次为0.76、0.76 和0.81 g/kg;与10年苹果园相比,15年苹果园土壤全磷、速效磷含量分别提高了20%、28%。土壤剖面0―80 cm内不同土地利用方式土壤碳、氮、磷含量随土层加深而降低,80 cm以下不同利用条件苹果园土壤碳、磷含量差异不大,氮素含量在土壤100 cm下随苹果园种植年限增加而增加。     

西北干旱区生态用地概念及其功能分类研究

阐明了西北干旱区生态用地概念与定义 ,并依据功能将其划分为人工型与自然型两大类。其中人工型生态用地包括农业绿洲型和城镇绿洲型 ,自然型生态用地包括自然保护区型、山区水源涵养林型、天然绿洲型、湿地型、荒漠植被型和夹荒地型 ,分析了每种类型生态用地服务于主体生态系统的功能。并指出该区近期生态用地的研究重点应集中于生态用地资源评价 ,掌握其数量、质量及其空间分布规律 ;确定生态用地在西北干旱区以及区内不同流域中所占合理比例 ;定量化研究生态用地与生态用水间的关系。     

The relative impact of land use and soil properties on sizes and turnover rates of soil organic carbon pools in Subtropical China

The dynamics of soil organic carbon (SOC) pools determine potential carbon sequestration and soil nutrient improvement. This study investigated the characteristics of SOC pools in five types of cultivated topsoils (0–15 cm) in subtropical China using laboratory incubation experiments under aerobic conditions. The sizes and turnover rates of the active, slow and resistant C pools were simulated using a first‐order kinetic model. The relative influence of soil environmental properties on the dynamics of different SOC pools was evaluated by applying principal component analysis (PCA) and aggregated boosted trees (ABTs) analysis. The results show that there were significantly greater sizes of different SOC pools and lower turnover rates of slow C pool in two types of paddy soils than in upland soils. Land use exerted the most significant influence on the sizes of all SOC pools, followed by clay content and soil pH. The soil C/N ratio and pH were the major determinants for turnover rates of the active and slow C pools, followed by clay content which had more impact on the turnover rates of the active C pool than the slow C pool. It is concluded that soil type exerts a significant impact on the dynamics of SOC.     

东北黑土区长期不同种植模式下土壤碳氮特征评价

土壤碳氮是衡量土壤肥力的重要指标,阐明农田管理措施对土壤碳氮特征的综合影响,可为农田地力培育和土地可持续利用提供理论与技术支撑。该研究借助在吉林公主岭建立的长期定位试验,选择休闲处理与增施有机肥条件下的玉米连作、玉米-大豆轮作、大豆连作等处理,系统评价了种植模式对土壤不同形态碳氮的影响及其相互关系。经过21 a的增施有机肥,玉米连作、玉米-大豆轮作、大豆连作3个处理的耕层(0~20 cm)土壤有机碳、全氮和有效氮比休闲处理分别提高23.5%~46.8%、4.9%~64.3%和35.4%~121.9%,其中以玉米连作处理最高(P0.05);有机碳与全氮、有效氮呈极显著的相关关系(P0.01),表明较高的有机碳会促进氮素有效性。玉米连作处理的耕层土壤微生物量碳分别比玉米-大豆轮作和大豆连作处理高23.1%和41.4%,而土壤微生物量氮则分别高37.8%和135.3%,差异显著(P0.05)。玉米连作处理下耕层2 000μm、≥250~2 000μm、≥53~250μm以及53μm的土壤团聚体结合有机碳均为最高(P0.05)。此外,玉米连作处理的高活性有机碳组分显著(P0.05)高于其他处理,其化学活性指数也显著(P0.05)高于玉米-大豆轮作处理,表明玉米连作处理下的土壤有机碳对外界环境变化较为敏感。上述研究表明,在施用有机肥的条件下,长期玉米连作可提高土壤有机碳质量分数,促进土壤氮素有效性,但应配合采用合理的耕种措施,以降低有机碳分解风险。     

Impact of land use on nitrogen concentration in groundwater and river water

Abstract

The aim of this study was to evaluate the impact of land use on nitrate nitrogen (NO₃-N) in shallow groundwater (G-N) and total nitrogen (N) in river water (R-N). The study area consisted of 26 watersheds (1342 km²) covering 72% of Kagawa Prefecture in Japan. We estimated G-N specific concentrations, which showed the magnitude of the upland fields, paddy fields, forests and urban land-use contributions to watershed-mean G-N. G-N specific concentrations were gained as partial regression coefficients using a multiple regression analysis of the watershed-mean G-N concentrations and the land-use ratios in each of the 26 watersheds. The results showed that the G-N specific concentration, which was gained as the partial regression coefficient for the multiple regression analysis, was 15.2 mg L^?1, 10.3 mg L^?1, 2.3 mg L^?1 and 2.5 mg L^?1 for the upland fields, paddy fields, forests and urban land-use types, respectively. R-N pollution load runoff to the river mouth was calculated by multiplying R-N specific concentration (previously reported) by river flow at the river mouth. Similarly, G-N pollution load arrival to groundwater was calculated by multiplying G-N specific concentration by the groundwater flow. The R-N pollution load runoff was 19.3 kg ha^?1 y^?1, 7.7 kg ha^?1 y^?1, 1.7 kg ha^?1 y^?1 and 7.6 kg ha^?1 y^?1, while the G-N pollution load arrival was 7.3 kg ha^?1 y^?1, 5.0 kg ha^?1 y^?1, 1.1 kg ha^?1 y^?1 and 1.2 kg ha^?1 y^?1, for upland fields, paddy fields, forests and urban areas, respectively. These results showed that the N in river water and groundwater was derived mainly from runoff and leaching from croplands. Therefore, the relationships between watershed-mean non-absorbed, applied nitrogen (NAA-N: nitrogen applied to cropland via fertilizer and manure without being absorbed by crops), R-N concentration and watershed-mean G-N concentration were investigated. A curvilinear correlation was observed between NAA-N and R-N concentrations (r² = 0.68) except for one small, high-density, urban watershed, and a weak linear correlation was observed between NAA-N and G-N concentrations (r² = 0.42).     

黄土丘陵区不同土地利用方式对土壤含水率的影响

在干旱半干旱地区,土壤含水率是影响作物生长和植被恢复的重要因子。采用土钻法对黄土丘陵区典型流域不同土地利用方式下土壤含水率进行了比较。结果表明,农田土壤含水率显著较高,这与农田坡度较小及梯田建设有关,还与农作物蒸腾耗水相对较小有关。林地、灌木地和草地土壤含水率相对较低,且相互间无显著差别。黄土丘陵区土壤含水率主要受坡度和土壤稳定入渗速率的影响。但草地土壤含水率还与坡向及年生物量有关。土壤水分分布格局与该区土层深厚,地下水埋藏较深,土壤水分收入主要受降雨的补给有关。因此,该区农田建设应在坡度较小（＜10°）的地形上进行,并优先考虑梯田。坡度较大的地方应以天然灌木和草本群落的保育为主。人工乔灌林只适宜在沟道等水分条件较好的地方种植。