希拉穆仁草原退化评价及地表风蚀颗粒表征

经过对希拉穆仁草原围封、自由放牧草地及旅游区进行实地调查,结合内蒙古自治区第5次荒漠化和沙化监测实施细则,根据植被盖度和生物量等指标对草原进行了退化诊断与评价,并在此基础上研究了不同退化程度的地表粗粒组成。结果表明:希拉穆仁草原围封草地以轻度退化为主,自由放牧区以中度退化为主,但在坡顶出现重度退化,旅游区退化程度最为严重,均为重度退化区;可以以土壤颗粒0.84mm的百分比含量作为草原退化的判别标准,当其含量在82.22%~89.04%范围内为重度退化,含量在74.01%~79.53%为中度退化,含量在56.05%~66.11%为轻度退化。该指标能够直观、实时地反映草原的退化状况,且具有简便、快速诊断的生产应用性。     

基于MODIS-NDVI的连江流域植被覆被及空间格局变化分析

利用2001-2008年250 m分辨率的MODIS-NDVI数据与景观格局分析软件,对8 a来连江流域的植被覆盖与空间格局变化进行动态分析。结果表明:近8 a来连江流域的较高与高植被覆盖区面积减少而中度与较低植被覆盖区面积增加,即植被覆盖呈总体退化趋势;流域景观破碎程度减少、连通性增强,景观异质性提高,景观趋于多样化和均匀化;流域内各类景观要素在破碎化程度、复杂性和稳定性、空间分布关系、聚集性变化差异明显,其中较高与中度植被覆盖区的空间特征变化对整个流域空间格局动态起主导性作用。     

Land Use and Soil Organic Carbon in China’s Village Landscapes

Village landscapes, which integrate small-scale agriculture with housing, forestry, and a host of other land use practices, cover more than 2 million square kilometers across China. Village lands tend to be managed at very fine spatial scales (≤ 30 m), with managers both adapting their practices to existing variation in soils and terrain (e.g., fertile plains vs. infertile slopes) and also altering soil fertility and even terrain by terracing, irrigation, fertilizing, and other land use practices. Relationships between fine-scale land management patterns and soil organic carbon (SOC) in the top 30 cm of village soils were studied by sampling soils within fine-scale landscape features using a regionally weighted landscape sampling design across five environmentally distinct sites in China. SOC stocks across China’s village regions (5 Pg C in the top 30 cm of 2 × 10 6 km 2 ) represent roughly 4% of the total SOC stocks in global croplands. Although macroclimate varied from temperate to tropical in this study, SOC density did not vary significantly with climate, though it was negatively correlated with regional mean elevation. The highest SOC densities within landscapes were found in agricultural lands, especially paddy, the lowest SOC densities were found in nonproductive lands, and forest lands tended toward moderate SOC densities. Due to the high SOC densities of agricultural lands and their predominance in village landscapes, most village SOC was found in agricultural land, except in the tropical hilly region, where forestry accounted for about 45% of the SOC stocks. A surprisingly large portion of village SOC was associated with built structures and with the disturbed lands surrounding these structures, ranging from 18% in the North China Plain to about 9% in the tropical hilly region. These results confirmed that local land use practices, combined with local and regional variation in terrain, were associated with most of the SOC variation within and across China’s village landscapes and may be an important cause of regional variation in SOC.     

江苏省土地资源禀赋度空间变化研究

本文从土地数量、质量、结构和效益等方面构建了土地资源禀赋度评价指标体系,并采用多边形综合指标法对江苏全省各市县土地资源禀赋现状及空间变化进行了研究。结果表明:①江苏省土地资源禀赋度差异显著,呈现由南向北先递减后递增的规律,总体上苏南好于苏北好于苏中;②1996—2006十年间各市县土地资源禀赋度总体有所下降;③今后应根据区域特点,采取针对措施,提高区域土地资源禀赋度。     

非常规水水质对红壤水分运移参数的影响及其过程模拟

为了探究非常规水水质对亚热带红壤水分运移参数的影响,采用蒸馏水(CK)、再生水(RW)、稀释2,4,6倍再生水(RW-D2、RW-D4、RW-D6)和生活污水(_(WW))等6种不同水质的非常规水模拟红壤水分入渗过程,利用水平土柱吸渗法测定红壤湿润锋运移速率和水分扩散度,应用压力膜仪法测定了土壤水分特征曲线并且借助van Genuchten(VG)模型提取了相应的土壤残余含水量θ_r、土壤饱和含水量θs、α和n等特征参数值。结果表明:不同水质入渗下红壤湿润锋运移速率、水分扩散度均存在着一定差异,湿润锋运移速率由快到慢分别为V_(CK)≈V_(RW-D2)V_(RW-D6)≈V_(RW-D4)V_(WW)V_(RW);在同一含水率下D_(RW-D6)(θ)D_(RW-D4)(θ)D_(WW)(θ)D_(RW-D2)(θ)D_(CK)(θ)D_(RW)(θ)。不同水质处理对VG模型参数变化率的影响程度不同,对α的影响最大,对θ_r的影响最小。因此,非常规水灌溉会降低红壤入渗速率、持水性能以及抗旱能力。     

CO2浓度升高条件下不同程度豌豆蚜危害对紫花苜蓿叶片营养物质和次生代谢物质的影响

由于人类大量开采使用石油、煤炭、天然气等化石燃料,使大气CO₂浓度升高,这不但加速全球变暖,还将影响地球上动植物的生存和分布,从而对整个生态系统产生深远影响。为探明CO₂浓度升高与豌豆蚜（Acyrthosiphon pisum）虫口密度对紫花苜蓿（Medicago sativa）叶片内化学物质的影响,明确CO₂浓度升高和蚜虫密度在紫花苜蓿生理生化中的作用,试验在CO₂光照培养箱内设置380 μL·L^-1（对照）、550 μL·L^-1和750 μL·L^-1 3个CO₂浓度培育苜蓿幼苗并接入10日龄成蚜10头·株^-1、20头·株^-1、30头·株^-1,并以0头·株^-1作为空白对照,1周后测定植物体内营养物质和次生代谢物质含量。结果表明,随CO₂浓度升高,蚜虫密度为30头·株^-1时紫花苜蓿可溶性蛋白、可溶性糖以及淀粉含量均上升,在750 μL·L^-1 CO₂浓度下分别比CK上升11.62倍、0.49倍和0.24倍;黄酮、总酚和简单酚含量也显著上升。随蚜虫危害程度加重,同一CO₂浓度下紫花苜蓿淀粉、简单酚含量先上升后下降,高CO₂浓度蚜虫密度为30头·株^-1时比0头·株^-1时可溶性糖、总酚以及单宁含量上升1.66倍、1.49 mg·g^-1和1.09 mg·g^-1,差异均显著（P<0.05）。说明具有固氮作用的豆科植物更易于适应CO₂浓度升高的变化,从而在受到刺吸胁迫后增强自身诱导抗虫性以抵御害虫为害。     

基于遥感光谱的干旱区土地退化评价体系构建

干旱区土地退化(荒漠化)作为全球面临生态环境挑战之一,对粮食安全、环境质量和区域自然资源管理至关重要。土地退化本质是人与自然因素协同作用下土地利用/覆被类型、数量、结构以及功能的改变而引起的生态服务价值降低,核心是土壤和植被的退化。一方面,人与自然共同作用下的土地利用覆被可以表征土地退化状态,另一方面植被-土壤生境时间序列相互作用过程进一步辅助土地退化过程诊断。因此,该文首先从覆被结构、退化类型和退化程度3个层次建立干旱区土地退化状态评价体系。其次,采用GF-1/WFV时间序列遥感影像,基于多端元光谱混合分解模型建立土地利用/覆被精细分类量化表征下垫面质量属性,并进一步利用植被-生境组分互动特征参数进行功能量化,综合评价民勤2015年退化类型和退化程度。最后,结合地面立地景观照片以及采样点实测数据,对土地退化状态评价结果进行绝对定标和交叉验证。结果表明:遥感评价识别土地退化类型和程度的能力分别为87.5%和78.7%。对于民勤旱地系统,沙化过程、沙-盐化过程是主要的土地退化过程,轻度沙化、中度沙化为主导退化程度。该方法为宽波段遥感国产高分1号卫星在旱地系统土地退化状态信息提取和深入应用提供科学依据和实证研究。     

模拟降雨条件下不同植被覆盖度/格局的坡地土壤铵态氮流失特征

尽管采取各种措施控制农业氮素污染,但大量氮素的流失仍然成为农业非点源污染的主要来源之一。采用室内模拟降雨的方式,选用了3种植被覆盖度(25%,50%和75%)、9种不同的植被格局,对21°坡面铵态氮随径流和泥沙流失迁移规律进行了研究。结果表明:径流和泥沙流失的控制关键期在初期产流阶段。植被覆盖度25%时,铵态氮流失规律不明显。植被覆盖度50%时,在中期和后期产流阶段径流和泥沙携带的铵态氮流失量分别占累计流失量71.2%~82.8%,应加强中期和后期产流阶段铵态氮流失量控制。植被覆盖75%时,初期产流阶段是铵态氮流失控制的关键时期。径流与径流结合态铵态氮流失量呈幂函数关系,两者呈显著正相关(p0.05),泥沙与泥沙结合态铵态氮流失量均呈幂函数关系,并具有极显著正相关性(p0.01)。径流和泥沙流失是坡面铵态氮流失的两种途径。从削减水沙和养分流失量角度来看,坡下植被格局最强,坡上植被格局次之,坡中植被格局最弱。     

Fate of phosphorus in soil during a long‐term fertilization experiment in Finland

Accumulation and depletion of soil phosphorus (P) was studied in a long‐term (37 y) field experiment in Southern Finland. The loam soil had a high pH (7.5–7.7) due to an earlier liming. Spring barley, spring wheat, oat, and ryegrass, grown in rotation, were annually fertilized with 0, 32, or 67 kg P ha^?1 y^?1 (P₀, P₁, and P₂K) and sufficient N. The average dry matter grain yield 2,600 kg ha^?1 of the P₀ plots increased by about 500 kg ha^?1 at P₁ treatment and another 600 kg ha^?1 by P₂K. Soil samples were collected in 1978 (beginning), 1995, 2005, and 2015. According to the Chang and Jackson sequential extraction, the P₂K and P₁ treatments increased the inorganic soil P by 732 and 32 kg P ha ^?1 in 37 years, respectively, while the P₀ plots were depleted by –459 kg P ha ^?1. The P₂K treatment increased all four P fractions, extracted with NH₄Cl (easily soluble), NH₄F (Al‐P), NaOH (Fe‐P), and H₂SO₄ (Ca‐P). Continuous depletion (P₀) decreased the NH₄Cl‐P and NH₄F‐P pools, NaOH‐P and H₂SO₄‐P pools remaining stable. None of the P pools changed significantly at P₁. The remarkable gap between the measured change and the balance for the P₂K and P₁ treatments cannot be explained solely by lateral soil movement, meaning that a significant proportion of the applied P was lost either in surface runoff or transported below the investigated depth of 40 cm. Despite large P applications, the degree of P saturation reached only 20% in the P₂K topsoil, assuming a 50% reactivity of Fe and Al oxides. As derived from sorption isotherms, a high EPC₀ (i.e., equilibrium P concentration at zero net P sorption or desorption) of 1.30 mg L^?1 had been built up in the P₂K treatment, while in the P₁ treatment EPC₀ (0.33 mg L^?1) had remained unchanged and P depletion (P₀) had caused a decrease to 0.12 mg L^?1. These results demonstrate that P sorption and desorption properties respond strongly to both P fertilization and null fertilization treatments and that in a long‐term field experiment only a low proportion of the residual fertilizer P can be recovered from soil.     

水资源紧缺条件下系统节水价值的矩阵模型研究

影响系统节水价值的因素很多,如系统的结构型式、产业结构型式、节水成本、节水技术水平、节水量、水资源价值量等,合理地量化分析计算各要素在价值形成中的贡献大小,把这些因素的复杂关系概括成矩阵形式,形成3个矩阵,从而构建了系统节水价值的矩阵模型。