近20年海南省耕地林果化的时空分异及驱动因素分析

耕地林果化是指原本种植粮食作物的耕地被用于植树种果的现象,揭示耕地林果化时空分异及驱动因素对科学管理耕地、稳定粮食生产具有重要意义。基于土地类型变化视角,以海南省2000、2010和2020年3期土地利用数据为基础,综合利用转移矩阵、地理探测器和多元线性回归模型,系统分析了近20年海南省土地类型变化视角下的耕地林果化利用总体态势、时空分异特征及其驱动因素。研究表明：2000－2020年海南省林果化耕地规模呈降低态势,耕地林果化增量规模从2000－2010年的1 314.35 km2下降到了2010－2020年的472.45 km2,且前时段的林果化耕地有397.61 km2在后时段转回为了耕地。两个时段内,市县尺度耕地林果化利用现象空间差异明显,文昌、儋州的耕地林果化规模较高;网格尺度的耕地林果化空间分布格局基本相似,但格网耕地林果化比例具有明显差异。各时段驱动因子的解释能力不同,GDP增速、自然地形、区位因素是解释力较强的驱动因子;驱动因子是通过因子间交互作用影响耕地林果化利用,表现为双因子增强或非线性增强。     

Dynamics of soil fauna after plantation of perennial energy crops on polluted soils

Growing demand for alternative energy sources has led to an increased production of biomass crops. In order to limit the use of fertile agricultural land for producing bioenergy, low quality agricultural land, as well as degraded or drastically disturbed soils have been proposed for the cropping of bioenergy cultivars. Our work aimed at assessing the dynamics of soil invertebrate diversity after plantation of perennial energy crops on metal polluted soils. The results were compared with invertebrate diversity dynamics in soils of other plots, representative either for the dominant land occupancies in the study area, or for unpolluted soil situations. We investigated taxonomic, compositional and functional dimensions of diversity in soil- and surface-dwelling communities. Changes in land use from annual crops to perennial energy crops led to a higher number of individuals in soil. No or few changes in taxonomic richness were recorded with an increasing age of energy cropping. Regarding functional diversity, the proportions of resident invertebrates tended to vary with the age of energy cropping, but neither the trophic composition nor the body spectra were modified. Our findings highlighted an increase of soil carrying capacity after perennial energy crop plantation on metal polluted soils, but effects on invertebrate diversity were limited.     

退耕还林工程建设对吴起县土地利用/覆被变化及其土壤侵蚀的影响

为研究退耕还林工程建设对吴起县土地利用/覆被变化及其土壤侵蚀的影响,基于3S技术与RUSLE土壤侵蚀模型,分析评价了该县退耕还林前后土地利用/覆被、土壤侵蚀的时空变化。结果表明:吴起县实施退耕还林后10 a来,各种土地利用类型之间发生了较为复杂的转化,耕地面积比退耕前减少66.51%,林地面积比退耕前增加了212.61%;水土流失控制效果明显,全县平均土壤侵蚀模数由退耕还林前的9 779 t/（km²·a）减少为退耕还林后的5 285 t/（km²·a）,减少了45.96%,退耕还林后全县每年可减少土壤侵蚀量约1 704万t;土壤侵蚀与土地利用类型关系密切,未利用地的侵蚀最严重,其平均土壤侵蚀模数为19 513 t/（km²·a）,为林地土壤侵蚀模数平均值856 t/（km²·a）的22.79倍;研究结果将对该区域水土流失控制及其土地资源的合理利用提供参考依据。     

Impact of newly introduced perennial bioenergy crops on soil quality parameters at three different locations in W‐Germany

The land areas used for bioenergy crop cultivation are increasing across Europe. For several years now, various perennial crops have been cultivated, including Miscanthus , switchgrass and reed canary grass, and the newly introduced cup plant, giant knotweed, tall wheatgrass, virginia mallow, and wild plant mixtures. We investigated the impact that many of these perennial bioenergy crops (PECs) have on the soil organic C and N pools, microbial properties, and earthworm activity at three different study sites in W‐Germany with varying soil conditions after an experimental period of five years. Silage maize (Zea maize ) in rotation with green rye (Cecale cereale ) or Triticale was used for comparison (= annual energy crops; AEC). The overall intention of this study was to gain insights into the future trends of soil quality with changes in land‐use towards bioenergy production. Our results emphasized that in general, soil quality was improved through the cultivation of perennials. For example, after five years of investigation, the mean soil organic carbon contents increased, on average, by 1–2% at two of the three study sites, the soil microbial biomass increased from 13% (virginia mallow) to 27% (tall wheatgrass) (p < 0.05) compared to AEC treatment and the mean earthworm activity (cast production) was significantly improved in PECs compared to AEC. These trends were mainly found in silty to loamy soils, but the results were slightly different in sandy soils and dry climate conditions. We suggest that this might be traced back to unfavourable growing conditions for perennial crops during the first years of establishment. To our knowledge, this is the first comprehensive field investigation of the impact of these newly introduced perennial crops on soil quality indicators that considers various site‐ and soil‐specific growth conditions.     

Effects of perennial fodder crops on soil structure in agricultural headlands

In agricultural headlands, rooting and yield of crops may be limited because of soil‐structure changes as a consequence of multiple passes of turning machinery. We hypothesized that perennial forage crops can substantially alter soil structure in agricultural headlands. On one experimental field and two commercial farms on Haplic Luvisols from respectively loess and sandy loess in the Lower Rhine Bay (Germany), we investigated how 4 y of continuously grown grass/clover or alfalfa affected soil structure and the performance of subsequent spring wheat. Compared with a crop rotation with annual plowing to 30 cm soil depth, perennial forage crops led to increased soil C content (+1.3% to +22.8%) and N content (+4.2% to +15.1%), higher densities of medium and coarse biopores at a depth of 35 cm, more large water‐stable soil macroaggregates, higher biomass and abundance of anecic earthworms, and higher grain yield and grain protein content of spring wheat grown as the following crop. Root‐length density of spring wheat in the subsoil was not affected by the preceding perennial fodder crops in two of the three field trials. We concluded that besides increasing N input to the soil, perennial cropping of grass/clover or alfalfa has effects on soil structure that may substantially reduce yield losses in agricultural headlands.     

县域耕地占补时空变化及其规划管控效果——以江苏省南通市通州区为例

[目的]分析2001—2010年江苏省南通市通州区耕地占补的时空特征,初步探讨县级土地利用总体规划对耕地占补的管控效果,为进一步改进土地利用总体规划的编制与实施提供科学依据。[方法]以通州区2001和2010年2个时期的土地利用动态数据为基础,采用GIS空间分析方法,分析该区2001—2010年耕地时空变化。[结果](1)2001—2010年通州区耕地总面积由92 503.47hm2减少到72 466.52hm2,补充速度慢于占用速度,占用和补充的水田比例都较高。(2)耕地占用的主要去向是建设占用,96.80%是农村居民点占用,耕地补充的主要来源是建设用地,水域及其他农用地,其中农村居民点整理补充耕地的比例为71.67%。(3)耕地占用主要集中在通州区西北部和中部地区,耕地补充主要集中于研究区中部以及北部地区。(4)从空间规模与空间结构控制效果来看,通州区土地利用总体规划在2001—2010年对耕地占补的管控效果较差,对具体地类而言,对新增城镇工矿占用耕地的管控效果要优于农村居民点用地。[结论]2001—2010年通州区耕地总面积减少,其占用的主要去向和补充的主要来源均是建设用地,且呈现一定的空间分布规律,土地利用总体规划对耕地占补的管控效果较差。     

Consequences of forest conversion to pasture and fallow on soil microbial biomass and activity in the eastern Amazon

The main change in soil use in Amazonia is, after slash and burn deforestation followed by annual crops, the establishment of pastures. This conversion of forest to pasture induces changes in the carbon cycle, modifies soil organic matter content and quality and affects biological activity responsible for numerous biochemical and biological processes essential to ecosystem functioning. The aim of this study was to assess changes in microbial biomass and activity in fallow and pasture soils after forest clearing. The study was performed in smallholder settlements of eastern Brazilian Amazonia. Soil samples from depths of 0–2, 2–5 and 5–10 cm were gathered in native forest, fallow land 8–10 yr old and pastures with ages of 1–2, 5–7 and 10–12 yr. Once fallow began, soil microbial biomass and its activity showed little change. In contrast, conversion to pasture modified soil microbial functioning significantly. Microbial biomass and its basal respiration decreased markedly after pasture establishment and continued to decrease with pasture age. The increase in metabolic quotient in the first years of pasture indicated a disturbance in soil functioning. Our study confirms that microbial biomass is a sensitive indicator of soil disturbance caused by land‐use change.     

Long‐term changes of aggregate‐associated and labile soil organic carbon and nitrogen after conversion from forest to grassland and cropland in northern Turkey

Soil management systems can have great effect on soil chemical, physical and biological properties. Conversion of forest to grassland and cropland can alter C and N dynamics. The objective of this study was to evaluate the changes in aggregate‐associated and labile soil organic C and N fractions after conversion of a natural forest to grassland and cropland in northern Turkey. This experiment was conducted on plots subject to three different adjacent land uses (forest, grassland and cropland). Soil samples were taken from 0–5, 5–15 and 15–30 cm depths from each land use. Some soil physical (soil texture, bulk density), chemical (soil pH, soil organic matter, lime content, total organic C and N, inorganic N, free and protected organic C) and biological (microbial biomass C and N, mineralizable C and N) properties were measured. The highest and lowest bulk densities were observed in grassland (1.41 g cm⁻³) and cropland (1.14 g cm⁻³), respectively. Microbial biomass C and total organic C in forest were almost twice greater than grassland and four‐times greater than cropland. Cultivation of forest reduced total organic N, mineralizable N and microbial biomass N by half. The great portion of organic C was stored in macroaggregates (>250 µm) in all the three land uses. Free organic C comprised smaller portion of soil organic C in all the three land uses. Thus, this study indicated that long‐term conversion of forest to grassland and cropland significantly decreased microbial biomass C, mineralizable C and physically protected organic C and the decreases were the greatest in cropland. Copyright © 2011 John Wiley & Sons, Ltd.     

Soil organic carbon and nutrients in smallholding land uses in southern Ethiopia

This study assessed the soil organic C (SOC) and soil nutrients in smallholding home garden, woodlot, grazing land, and cropland at two soil depths and two sites in Wolaita Zone, southern Ethiopia. The results showed that soil properties were significantly influenced by land use. The home garden had significantly higher (p < 0.05) SOC and soil nutrients when compared to the cropland. When the home garden was compared to the woodlot and grazing land uses, it had significantly higher (p < 0.05) values except in SOC, total N (TN), cation exchange capacity (CEC), and exchangeable Ca. Cropland, in comparison with grazing land and woodlot, had a non‐significant difference except TN. The SOC stock (0–40 cm) in the home garden, woodlot, grazing land and cropland was 79.5, 68.0, 65.0, and 58.1 Mg ha^?1, respectively. Home garden significantly differed (p ≤ 0.05) in SOC only from cropland, and this was attributed not only to the relatively higher organic input in the home garden but also to the little organic matter input and frequently tillage of the cropland. The similar SOC among the home garden, woodlot and grazing lands may imply that the balance between inputs and outputs could be nearly similar for the land uses. Soil TN and CEC had a nearly similar pattern of difference as in SOC among the land uses because of their close relationship with SOC. In general, the land use influence on soil nutrients can be in the order: home garden > wood land ≈ grazing land ≈ cropland, with home garden showing the least difference from the woodlot and the greatest from the cropland. In the agroecosystem, in general, the influence of smallholding home garden on SOC and soil nutrient was marginally different from Eucalyptus woodlot and grazing lands but evidently different from cropland.     

Changes in soil carbon and crop yield over 60 years in the Zurich Organic Fertilization Experiment,following land‐use change from grassland to cropland

Changes in land‐use and agricultural management affect soil organic C (SOC) storage and soil fertility. Grassland to cropland conversion is often accompanied by SOC losses. However, fertilization, crop rotation, and crop residue management can offset some SOC losses or even convert arable soils into C sinks. This paper presents the first assessment of changes in SOC stocks and crop yields in a 60‐year field trial, the Zurich Organic Fertilization Experiment A493 (ZOFE) in Switzerland. The experiment comprises 12 treatments with different organic, inorganic and combined fertilization regimes. Since conversion to arable land use in 1949, all treatments have lost SOC at annual rates of 0.10–0.25 t C ha^?1, with estimated mean annual C inputs from organic fertilizers and aboveground and belowground plant residues of 0.6–2.4 t C ha^?1. In all treatments, SOC losses are still in progress, indicating that a new equilibrium has not yet been reached. Crop yields have responded sensitively to advances in plant breeding and in fertilization. However, in ZOFE high yields can only be ensured when mineral fertilizer is applied at rates typical for modern agriculture, with yields of main crops (winter wheat, maize, potatoes, clover‐grass ley) decreasing by 25–50% when manure without additional mineral fertilizer is applied. ZOFE shows that land‐use change from non‐intensively managed grassland to cropland leads to soil C losses of 15–40%, even in rotations including legumes and intercrops, improved agricultural management and organic fertilizer application.     

生态退耕背景下甘肃省正宁县耕地保护压力分析

以甘肃省正宁县1995,2000和2010年1∶10万的土地利用图和1995—2008年有关耕地利用的统计数据作为分析依据,以ENVI,ArcGIS和SPSS软件为主要工作平台,对案例区生态退耕前后的耕地分布格局变化及耕地保护压力进行了分析。生态退耕实施后,大部分坡耕地转为林地,建设用地占用平原耕地明显。耕地空间分布表现为由分散向集中,由不规则向规则方向转化。因子分析显示,耕地保护压力主要涉及3方面因素:人们生活和生产水平主导的人文因素,退耕补贴水平体现的政策因素以及成灾面积体现的自然因素。为了缓解生态退耕区的耕地保护压力,需要控制建设用地占用平原耕地,稳定生态补偿水平以避免已退耕地的复垦。同时需注意控制农资投入水平,防止农业面源污染加剧的风险。     

EFFECTS OF LAND USE ON SOIL MOISTURE VARIATIONS IN A SEMI‐ARID CATCHMENT: IMPLICATIONS FOR LAND AND AGRICULTURAL WATER MANAGEMENT

Knowledge of the effects of land use on soil moisture variations is necessary to improve land and agricultural water management in the semi‐arid Chinese Loess Plateau. However, previous studies are insufficient to guide management practice in this area and improvement is needed to help with the development of the ‘Grain for Green’ programme. As part of the ‘Grain for Green’ programme, we examined the effects of five land uses (fallow, grassland, cropland, 3‐year and 8‐year jujube orchards) on soil water variations in a small catchment on the Loess Plateau. Soil moisture at 0–160 cm depth was monitored approximately weekly at 47 sites from 17 August to 19 October 2009 and from 4 April to 27 September 2010 using a portable time domain reflectometer. Results indicated that mean soil water profiles in different land uses varied with time, land use induced spatial variations of soil water but exerted negligible influence on soil water temporal patterns, and soil water content was of the greatest spatial variability with moderate means (approximately 20 per cent). Furthermore, the relationship between standard deviation and mean water content was dependent on soil depth, although it was negligibly affected by land use. Profile soil water for five land uses was different in various seasons, precipitation infiltration depth exhibited a positive correlation with precipitation, and the whole profile soil moisture (0–160 cm) was complemented following a 93·5‐mm rainfall event. The findings presented here provide helpful information for land and agricultural water management in this area. Copyright © 2011 John Wiley & Sons, Ltd.     

Crop production in the tropics: A review

Intensive land use and concomitant land degradation are strongly undermining the sustainability of current crop production systems in the tropics. Thus, finding alternative cropping strategies to overcome soil and environmental stresses is an integral part of the ongoing process of maintaining and improving crop productivity. In this paper, major features of crops and crop production systems were reviewed. Production systems such as pastures, perennial crops, and agroforestry were found to be highly effective in promoting high and stable crop productivity, restoring and/or enhancing soil fertility, and minimizing erosion risk.     

The influence of land use and fallow period on the properties of two calcareous soils in the humid tropics of southern Mexico

Calcareous soils are common in the humid tropics of Mexico, but little is known about their productivity and resistance to changes in land use. The influence of land use and duration of fallow on physical and chemical properties were investigated in (a) a loamy Rendzina (at Site A) rich in organic matter and limited in depth by calcareous gravel, and (b) a deeper Calcaric Phaeozem (at Site B) with a more clayey texture throughout. Plots at different successional stages within farmers' shifting cultivation systems were selected on both soils: cropland/young fallow (zero years fallow length), shrub-fallow and tree-fallow at Site A, and cropland/young fallow and forest at Site B. Changes in soil properties suggested a process of recovery with fallow length, in which organic matter, total N and CEC increased with time. The increase in organic matter was remarkably large, on average 0.5–0.6% per year. The Rendzina contained more organic matter than the Calcaric Phaeozem, probably because of its greater carbonate content, which is presumed to protect organic matter against decomposition. The differences in soil properties were mostly greater over time than between treatments.     

An economic analysis of revegetation for dryland salinity control on the Lower Eyre Peninsula in South Australia

Dryland salinity is a major natural resource management problem imposing large economic and environmental costs in many countries throughout the world. The major cause of dryland salinity is the replacement of perennial native vegetation with annual crops and pastures. This results in greater amounts of water entering a groundwater system, watertable rise and the concentration of naturally occurring salts near the soil surface. Many consider that the best long‐term solution is the re‐establishment of high water use perennial vegetation through production systems such as agroforestry. This paper presents a benefit–cost analysis (BCA) of revegetation to control dryland salinity over a 20‐year period in South Australia. The results of the BCA indicate that market costs are likely to exceed market benefits for broad‐scale revegetation programmes. These results are driven by hydrogeological studies, which indicate that as much as 50 per cent of a ‘problem‐type’ catchment needs to be revegetated to save only 3 per cent of land from being salt affected. The conclusion is that revegetation programmes need to be highly targeted to areas of a catchment with large potential to control salinity, land that has minimal value for other uses and regions with high infrastructure and ecological value. Copyright © 2002 John Wiley & Sons, Ltd.     

贵州中部岩溶丘陵区不同土地利用和管理方式对土壤肥力的影响

本文研究了黔中岩溶丘陵区几种不同士地利用和管理方式下土壤物理、化学和生物学性状的特征。结果表明,农林(林草)复合利用模式在土壤粒级组成、孔隙分布、持水性能、有机质和N、P养分、酶活性等方面表现出较好的肥力性状特征,有机无机肥配施、精细管理的灌溉农田次之,而粗放管理的旱坡耕地,土壤肥力性状严重恶化,逐步向石漠化景观演变。不同土地利用方式和管理措施显著影响土地肥力变化的程度和方向,调整土地利用结构,实行基本农田精细管理、陡坡耕地退耕还林(革)是保护土地资源,实现区域生态重建和农业可持续发展的根本途径。     

小浪底库区坡地不同景观配置对土壤水分时空分布及产流产沙影响

以小浪底水库库区6种主要坡地景观类型(免耕农田、传统耕作农田、撂荒地、果园、林地、间作地)为例,研究了坡地不同景观配置对土壤水分时空分布及其产流产沙的影响。研究结果表明,雨季末期农田景观配置(免耕、传统耕作)土壤含水量的增量是撂荒地、果园、林地、间作地景观的1.51、2.32、5.63、2.66倍,蓄水效率比撂荒地、果园、林地、间作地分别高7.06%、11.92%、17.23%、13.07%。土壤水分的垂直梯度变化可归纳为增长型、降低型和波动型和增长降低4种类型;径流和泥沙总量林地最少,农田传统耕作最多,其径流量是林地的13.9倍。     

中国农田表土有机碳含量变化特征——基于国家耕地土壤监测数据

通过对299个国家级耕地土壤监测点20余年数据的统计分析,评价了我国农田表土有机碳含量变化情况和固碳潜力。结果表明,全国约80％试验点有机碳年平均相对增长率（Average relative annual increment,ARAI）在-1．5％～7．5％。中国农田表土有机碳含量整体呈上升趋势。东北、华北等6个地理区域分析得出,华北、华东、西南农田表土有机碳含量显著增加;华东地区有机碳增加的农田面积占全国农田比例最大,东北最小。旱地和水田有机碳含量增加显著;水田有机碳增加的试验点所占比例大于旱地;对ARAI与初始有机碳含量进行相关分析得出,我国旱地和水田有机碳潜在储存能力估计值分别为17．2和27．7g·kg^-1。农田土壤类型中水稻土和褐土有机碳含量增加显著;黑土有机碳含量下降样本所占比例最高。对我国各典型种植制度分析得出,双季稻、麦-稻、麦-玉、单季小麦种植制度下农田有机碳有了显著增加;麦玉轮作较其他种植制度的农田有机碳年平均相对增长率高。     

利用多时相遥感影像监测季节性裸露农田

季节性裸露农田是北京地区冬春季大气“土壤尘”的主要来源。而农田季节性裸露的快速、准确监测是治理方案制定与实施的依据。根据北京地区裸露农田种植作物和其它地表覆盖类型的物候特征之间的差异,选用2004年春夏季3个时相的TM遥感影像数据,利用垂直植被指数,同时结合北京地区的DEM数据以及北京地区的行政边界矢量数据,建立了北京地区季节性裸露农田遥感监测专家模型。监测结果表明北京市2003年冬至2004春裸露农田面积为87362.57 hm²,主要分布在延庆、顺义、密云、通州等区县。依据监测结果,提出了季节性裸露农田防治建议。     

Effect of tillage and rotation on organic carbon forms of chernozemic soils in Saskatchewan

The effects of selected tillage and rotation systems on soil organic carbon and its fractions were studied on Chernozemic soils in south‐western and east‐central Saskatchewan. After practicing a no‐till fallow unfertilized‐wheat rotation for 7 years on an Orthic Brown Chernozem in south‐western Saskatchewan, total soil organic carbon (TOC) in the 0 – 5 cm and 5 – 10 cm layers was slightly lower than the tillage fallow‐unfertilized wheat comparable treatment. However, light fraction of organic carbon (LFOC) was similar in the two treatments. Comparison of the tillage fallow‐unfertilized wheat to a treatment involving conversion to a fertilized continuous cropping system for 10 years showed TOC increased slightly in the two depths and LFOC increased by 24 % and 29 % in the 0 – 5 cm and 5 – 10 cm layer, respectively, of the continuous cropping treatment. Microbial biomass carbon (MB‐C) was increased significantly at the 5 – 10 cm depth. After conversion of fallow‐wheat to alfalfa as perennial forage for 10 years, TOC increased by 80 % and 27 %, LFOC by 245 % and 286 %, and HFOC by 63 % and 20 % at 0 – 5 cm and 5 – 10 cm depths, respectively, compared to the tilled cereal‐fallow system. Meanwhile, water soluble organic carbon (WSOC) was not affected but MB‐C increased significantly. In an Orthic Black Chernozem in east‐central Saskatchewan, the depletion and restoration of organic carbon was observed when native sod was changed into cropland and then back to grassland. For example, the TOC of cropland under cereal‐fallow rotation for 62 years decreased by 42 % and 33 % at 0 – 5 cm and 5 – 10 cm depths, respectively, compared to native sod. The LFOC decreased by 79 % and 74 % in the layers, and reductions in WSOC and MB‐C were even greater. After cropland was re‐seeded to grassland for 12 years, the concentration of total organic carbon was increased by 16 % and 22 % while the mass of organic carbon was the same as the cropland in the two layers. The LFOC and MB‐C amounts in the grass seed‐down were double that of the cropped land, but the amounts of TOC, LFOC, and MB‐C in grass seed‐down were still significantly lower than the native sod.