基于协同克里格的橡胶园土壤速效钾空间变异性

选取有效变量的协同克里格方法能够提高县域尺度橡胶园土壤速效钾的空间预测精度,对橡胶树精准施肥管理具有重要意义。本研究以海南省白沙县橡胶园0～20 cm耕层土壤为对象,采用地统计学分析土壤速效钾的空间变异特征,运用相关分析筛选显著的特征变量,并比较不同变量的协同克里格(COK)空间插值精度。结果表明: 研究区土壤速效钾平均含量为44.65 g·kg^-1,总体处于缺乏状态;变异系数为52.6%,属中等变异强度;块金效应为12.5%,存在较强的空间自相关。有机质、高程与土壤速效钾含量关系密切,均呈极显著相关;有机质(COK₁)、高程(COK₂)、有机质+高程(COK₃)3种协变量的COK空间插值预测精度均高于普通克里格法(OK),交叉验证模型拟合精度为COK₁>COK₃> COK₂>OK;拟合精度与协变量选取的数量不呈正比,选取相关性更高的协变量更有利于反映区域土壤属性的空间异质性。研究区土壤速效钾含量具有西北部较高、中偏东部地区较低的分布特点。研究结果为今后开展橡胶园土壤钾素管理提供了理论依据。     

艾比湖流域小尺度农田土壤养分的空间分布和盐渍化风险评价

为了解绿洲经济迅速发展背景下新疆典型尾闾绿洲-艾比湖流域小尺度农田土壤的养分和盐渍化状况,对该地区典型农田土壤中有机质、碱解氮、速效磷和速效钾等养分元素的空间分布、影响因素以及盐渍化风险状况进行了评价。结果表明:(1)农田土壤中有机质、碱解氮、速效磷和速效钾的含量均较高。所有土壤样点中总盐分含量属于高度变异,其他指标属于低度变异。(2)半方差函数分析表明土壤中碱解氮、速效磷和速效钾含量的空间变异性主要受施肥和灌溉等随机性因素的影响;而有机质和总盐分含量的空间变异性则受植被覆盖和土壤质地等结构性因素以及施肥、灌溉等随机性因素的共同影响。(3)空间分析表明,总体看农田土壤中有机质、碱解氮、速效磷和速效钾含量较高区域主要分布在中部和北部,受施肥、灌溉方式和植被盖度等因素的影响;而盐分含量较高区域主要分布在研究区南部和边缘区域,主要受地形、土壤质地和植被盖度的影响。(4)相关分析表明农田土壤中有机质、速效钾、速效磷、碱解氮和总盐分含量呈显著的负相关关系。盐渍化风险评估表明土壤中总盐分含量属于低度到中度的盐渍化风险,不会对主要作物棉花的生长产生危害,但应改进灌溉方式和种植制度,同时采用增施有机肥、进行秸秆还田等措施促进棉花作物的稳产、高产。     

黔南山地植烟土壤主要养分空间变异和管理分区

利用地统计学和模糊c-均值聚类算法,对贵州省黔南州山地植烟土壤主要养分的空间变异特征和管理分区进行研究.结果表明:研究区土壤有机质含量适中,碱解氮、有效磷和速效钾含量丰富;4种土壤养分都具有中等强度变异,服从对数正态分布;有机质与碱解氮、有效磷与速效钾含量呈中度相关.土壤有机质和碱解氮的半方差函数为高斯模型,有效磷和速效钾为指数模型;4种土壤养分都具有中等的空间自相关性,滞后距离差异较大.研究区绝大部分土壤有机质、碱解氮、有效磷和速效钾含量处于适中至很丰富水平,含量缺乏的面积比例分别为0.93%、0.53%、0.24%和7.91%.研究区可划分为2个管理分区,分区1和分区2的面积比例分别为69.8%和30.2%,分区1土壤有机质、碱解氮、有效磷和速效钾含量极显著低于分区2.     

放牧制度对荒漠草原生态系统土壤养分状况的影响

从土壤N,P,K及土壤有机质等方面研究了在连续进行了7 a的放牧制度试验对荒漠草原生态系统土壤养分含量的影响。研究结果表明:放牧制度对土壤的养分状况有明显的影响。划区轮牧区和禁牧提高了土壤有机质、土壤氮素、土壤全钾和土壤速效钾含量。土壤表层磷含量划区轮牧区最高。放牧导致碳氮比减少。同时,土壤养分含量随土壤深度的变化在不同处理没有表现出较为一致的变化趋势。禁牧区土壤全氮含量随土壤深度的增加而增加;不同处理土壤速效氮、土壤速效钾含量均随土壤深度的增加逐渐降低;土壤全磷在自由放牧区随土壤深度的增加逐渐升高;土壤速效磷、全钾含量在划区轮牧区随土壤深度的增加逐渐降低;土壤养分含量与土壤深度的拟合曲线为二次幂函数。研究表明,禁牧和划区轮牧较自由放牧可以提高荒漠草原土壤养分元素的含量,有利于遏制草原土壤的退化。     

香榧主产区林地土壤养分空间异质性及其肥力评价

选取浙江省香榧(Torreya grandis cv.Merrillii)主产区为研究对象,系统采集表层土壤(0—20 cm)样品121个,基于地统计学及Moran′s I等空间分析方法揭示土壤养分的空间异质性,估算了香榧林地土壤综合肥力并分析其影响因素。结果表明:研究区土壤pH较低,有机质、碱解氮、有效磷和速效钾含量较高,平均含量分别为4.91、30.60 g/kg、136.77 mg/kg、15.02 mg/kg、153.42 mg/kg;基于半方差函数分析得出,土壤pH和养分要素属于中等空间相关性,其中pH的变程最小为3.29 km,有机质、碱解氮、有效磷和速效钾的变程分别为8.52、5.84、8.82、6.49 km;克里格空间插值和局部Moran′s I指数结果揭示土壤pH、有机质、碱解氮、有效磷和速效钾均存在明显的空间分布格局和局部空间聚集现象,土壤有机质、碱解氮、有效磷和速效钾低值区主要分布在诸暨市和东阳市,高值区主要分布在柯桥区和嵊州市,而pH的空间分布格局与之相反;诸暨市和东阳市部分地区土壤综合肥力指数较低,而其他区域的土壤肥力水平较高。总体上,浙江省香榧主产区土壤酸化以及养分失衡现象较为严重,尤其是速效钾含量过高。从相关性分析结果来看,环境变量对香榧林地土壤养分的影响较小,而林龄对土壤pH和养分的影响较大。可见,研究区土壤养分受人为活动影响明显。因此,需根据实际情况,改善林农的施肥管理方式,调整施肥数量和结构并开展土壤酸性改良,因地制宜制定区域施肥规划。     

基于GIS的缓坡烟田土壤养分空间变异研究

综合运用地统计学和GIS相结合的方法,分析了缓坡地形下土壤养分的空间变异规律,并绘制养分空间分布图,为山地缓坡烟田养分分区及精准施肥决策提供理论依据.结果表明:研究区内4种养分含量均具中等程度变异.土壤有机质、碱解氮、速效磷和速效钾的变程分别为61.8、76.3、70.5 m和57 m.土壤速效钾的分形维数最高,有机质和碱解氮其次,速效磷最低.有机质和速效钾的最适模型为指数模型,块金系数分别为30.9％和31.1％;碱解氮和速效磷可用球状模型进行较好拟合,其块金系数分别为37.7％和26.4％,4种养分均有中等程度的空间相关性.各向异性和趋势性分析均显示,有机质和速效磷具有较强的各向异性,碱解氮和速效钾的各向同性范围最广.研究区4种养分的空间分布格局在海拔和坡度的影响下呈现出一定的规律性,低值均在坡度较大的中北部出现,东北部和南部较平缓区域出现高值.     

毛乌素沙地南缘沙漠化临界区域土壤养分的空间异质性

毛乌素沙地南缘沙漠化临界区域是沙地-草地景观界面的关键部位,研究该区域土壤养分的空间格局和生态学过程,对于土地沙漠化的机理研究具有重要的意义。采用经典统计与地统计学相结合的方法,通过半变异函数及其模型、克里格局部插值估计、空间分布图等研究了毛乌素沙地南缘沙漠化临界区域土壤养分的空间异质性特征。结果表明:研究区土壤速效钾含量符合球状模型,全氮和速效磷含量符合指数模型;速效钾含量具有强空间自相关性,其结构方差比为0.882,而全氮和速效磷含量表现为中等程度的空间自相关性,其结构方差比分别为0.501和0.514;3种土壤养分空间自相关距离存在差异,其中全氮和速效钾的变程均为511m,而速效磷的变程为143m;3种土壤养分的分布格局呈现明显的空间规律性,从牛枝子群落到黑沙蒿群落,速效钾和速效磷含量先降低后升高,与研究区的界面变化过程一致,而全氮含量逐渐降低,与研究区的植被覆盖度变化一致;3种土壤养分的标准差都较小,Kriging插值结果比较可靠。     

基于样带的滨海盐碱地土壤养分和盐分的空间变异

在黄河三角洲北部刁口黄河故道盐碱地设置一条南北土壤样带,采用地统计学方法分析土壤养分指标(有机质、全氮、有效磷、速效钾)和全盐含量的空间分布规律及其影响因素.结果表明:研究区土壤有机质、全氮、有效磷、速效钾和全盐含量的块金系数分别为0.38、0.40、0.50、0.32和0.34,5个土壤指标均具有中等的空间相关性;样带上土壤有机质和全氮含量的分布趋势基本一致,土壤速效钾与全盐含量的分布具有很强的相关性,土壤有效磷含量呈波动式的空间分布.综合土壤有机质和全盐含量,将样带土壤划分为盐大肥低型、盐大肥高型、盐小肥高型3种类型.研究区各土壤指标的空间分布格局与成土母质、土地利用方式、距海距离、道路阻隔等因素密切相关.     

曲靖植烟土壤养分空间变异及土壤肥力适宜性评价

采用GPS技术在云南曲靖烟区布置了2088个采样点,测定其耕作层(0～20 cm)土壤主要养分含量,利用经典统计方法和地统计学方法对植烟土壤养分状况的总体特征和空间变异特征进行分析,并采用模糊数学方法对植烟土壤肥力适宜性进行综合评价.结果表明:曲靖植烟土壤pH、有机质、有效硫和水溶性氯含量适宜,全氮和碱解氮含量偏高,速效钾、有效钙、有效镁、有效铜、有效铁、有效锌、有效钼和有效锰含量丰富,速效磷含量中等,全磷、全钾和有效硼含量偏低;区域内植烟土壤养分指标均表现为各向异性分布,其中速效磷和有效硼的空间变异主要受随机性因素的影响,其他养分指标的空间变异是结构性因素和随机性因素共同作用的结果.植烟土壤肥力适宜性指数为优的区域缺乏,为良的区域占8.0%,一般的区域占51.6%,中等的区域占39.0%,为差的区域占1.4%.     

氮硅肥配施对水稻生长、产量及土壤肥力的影响

采用田间试验研究了氮硅肥配施对水稻生长、产量、养分吸收及土壤养分含量的影响。结果表明 ,氮、硅肥单施都能促进水稻生长及对养分的吸收 ,氮肥效果好于硅肥。氮硅肥配施下 ,水稻有效穗数、穗实粒数、千粒重、水稻产量以及水稻地上部生物量 ,植株氮、磷、钾、硅养分含量增幅均高于氮肥和硅肥单施。随施硅量增加 ,氮 /硅比率后期有明显下降趋势。氮硅配施提高了土壤速效氮含量和有效硅含量、降低了土壤速效钾含量 ,而对速效磷、pH、有机质及全氮无明显影响。     

西双版纳农田弃耕后橡胶园的建立对碳的固存作用

 由于温室气体的大量排放引起的全球气候变暖等环境问题日益严重,近年来人们开始考虑通过植被和土壤的碳固存,以缓解大气中CO2浓度的升高速度,减缓温室效应的影响。有研究表明,热带原始森林的保护和人工林的建立能有效地固存大气中的碳。但是,在建立热带种植园和人工林以固存大气CO2的可行性及其碳的固存潜力大小等方面还存在较大争议。云南省西双版纳自治州是我国重要的热带地区之一,目前橡胶(Hevea brasiliensis)园的面积为1.3×105 hm2,约占该地区林地面积的14%。在本研究中,选择11块在弃耕后的农田上建立的橡胶园（定植年限为3至38年）,初步探讨了橡胶园建立后植被和土壤中碳的固存规律。两个生物量模型（唐建维等的模型和Brown模型）的模拟结果显示,橡胶园建立后植被中生物量的平均增长速率分别为10.2×103和9.4×103 kg·hm-2·a-1,40和100 cm表层土壤碳的平均固存速率分别为0.61×103和0.72×103 kg C·hm-2·a-1,植被和100 cm表层土壤中碳的平均固存速率为5.82×103和5.42×103 kg C·hm-2·a-1,而定植40年后植被和100 cm表层土壤碳的固存潜力为232.8×103和216.8×103 kg C·hm-2。对两个模型的比较结果显示,唐建维等的模型生物量计算结果明显高于Brown模型,尤其是在对中幼龄橡胶园生物量估算时更是如此。     

A Study on Manganese Content in Soils and Leaves of Rubber Trees in Rubber Plantation Areas of China

The present paper deals with the status of manganese (Mn) in rubber trees on 110 rubber plantation at 46 counties in the rubber tree growing regions of China. The content of Mn in rubber tree leaves ranges from 31 to 2167 ppm, averaging 390 ppm which is higher than that in the leaves of normal rubber trees (150–300 ppm). Thus it can be concluded that the present status of Mn in China's rubber trees is higher. Nevertheless, the content of Mn of soil of rubber plantations in China varies significantly according to different soil types, fertilization and management. The difference between the highest and the lowest contents of total Mn could be as high as 140 times and an even greater difference of 200–1240-fold between the highest and the lowest contents of replaceable and reducible Mn has been observed. The storage of reducible Mn is generally insufficient in the soil. Therefore, the symptom of leaf yellowing due to deficiency of Mn has developed in rubber trees in certain parts of rubber tree growing regions in China. The essential oure for leaf yellowing of rubber trees is to raise Mn content in the tree by proper application of fertilizer. The procedures, dosage and timing of the fertilizer for leaf yellowing treatments are suggested.     

Arbuscular mycorrhizal soil infectivity and spores distribution across plantations of tropical,subtropical and exotic tree species: a case study from the forest reserve of Bandia,Senegal

Several fast‐growing and multipurpose trees such as exotic and valuable native species have been widely used in West Africa to reverse the tendency of massive degradation of plant cover and restore soil productivity. Although benefic effects have been reported on soil stabilization, a lack of information about their impact on soil symbiotic microorganisms still remains. This investigation has been carried out in field trees of 28 years old in a forest reserve at Bandia. To determine the mycorrhizal inoculum potential (MIP) of soils, a mycorrhizal bioassay was conducted using seedlings of Zea mays L. Spores concentration, arbuscular mycorrhizal (AM) fungi morphotypes and mycorrhizal colonization of field plants were examined. Results showed that fungal communities were dominated in all samples by the genus Glomus. Nevertheless, the others genera Gigaspora and Scutellospora occurred preferentially out of the plantations. The number and richness of spores as well as the MIP of soils were decreased in the tree plantations. Accordingly, the amount of annual herbaceous plants kept out of the tree plantations was much greater than those under the tree plantations. The colonization was higher in field root systems of herb plants in comparison with that of the tree plants. Comparisons allowed us to conclude that vegetation type modifies the AM fungal communities, and the results suggest further adoption of management practices that could improve or sustain the development of herbaceous layers and thus promote the AM fungal communities.     

Variation in drought resistance in adjacent edaphic populations of Eucalyptus viminalis Labill.

Population differences in growth rate, drought resistance, and aspects of tissue water relations in seedlings of two neighbouring populations of E. viminalis on basalt and granite soils have been reported previously (Ladiges 1974a, b). The present work has confirmed these differences and field studies have related them to differences in edaphic factors. The granite soil supports the slower growing, more drought-resistant population. Moisture contents for this soil were lower over a twelve-month period than for the basalt soil. Estimated pF values for granitic top-soil were higher and above 5 for six months of the year. During the drier months, leaf water potentials of mature trees on the granite were lower than for trees on the basalt and reached average values of -28 bars in March 1974. A comparison of open-pollinated seedlings on two areas of granite, 0–4 km and 2–0 km from the trees on the basalt, suggested that there is a degree of gene flow between trees on the basalt and trees on the nearer granite site. The results therefore suggest some outcrossing in E. viminalis. Prior to 1900, stands on the basalt area were probably continuous with those on the more distant granite site and a degree of gene flow would have occurred. It appears that differential selection pressures have been primarily responsible for the population differences noted in growth rate and drought resistance.     

The impact of available water content in previous agricultural soils on tree growth and nutritional status in young hybrid aspen plantations in Estonia

The impact of soil available water content (AWC) on the growth and foliar nutrient concentrations of trees in 7-yr-old hybrid aspen (Populus tremula L. x P. tremuloides Michx.) plantations established on abandoned agricultural lands was studied. AWC in the topmost 75 cm soil layer was significantly related to height growth and foliar N concentration of hybrid aspens. The correlations were stronger on well-drained automorphic soils and in the case of a dry growing season with insufficient precipitation. AWC over 150–160 mm can be considered sufficient, and below 120 mm insufficient for fast growth of hybrid aspen. The differences in AWC were less pronounced in the top 25 cm soil layer but were more noticeable in the 25–50 and 50–75 cm soil layers. AWC estimated as a function of soil specific surface area and bulk density was shown here to be a significant indicator for site selection for establishing hybrid aspen plantations. Foliar N concentration over 2.7% can be considered optimal and below 2.4%, insufficient for hybrid aspen on the studied soils. Foliar concentrations of P (on average 0.24%) and K (on average 0.79%) varied little and, thus, did not correlate with tree growth. The most suitable previous agricultural soils for afforestation with hybrid aspen would be moderately drained Albeluvisols, Luvisols and Planosols.     

不同树龄橡胶林土壤水分和细根生物量

采用根钻法,分析了橡胶幼树期(5 a)、初产期(9 a)和旺产期(16 a)林下土壤水分特征及橡胶树细根生物量.结果表明:橡胶树龄越大,土壤含水量越高,而橡胶树细根生物量越少;不同树龄橡胶林0～60 cm土壤含水量随着土层深度的增加而升高,年内变化则呈"双峰"型;不同树龄橡胶树细根生物量最大值均出现在10 cm土层,且随着土层深度的增加而减少,细根生物量年内变化同样呈"双峰"型,但不同树龄细根生物量峰值的出现时间不一致.土壤含水量和土层深度是橡胶树细根生物量的主要影响因子.     

Pushing the Limits: The Pattern and Dynamics of Rubber Monoculture Expansion in Xishuangbanna,SW China

The rapidly growing car industry in China has led to an equally rapid expansion of monoculture rubber in many regions of South East Asia. Xishuangbanna, the second largest rubber planting area in China, located in the Indo-Burma biodiversity hotspot, supplies about 37% of the domestic natural rubber production. There, high income possibilities from rubber drive a dramatic expansion of monoculture plantations which poses a threat to natural forests. For the first time we mapped rubber plantations in and outside protected areas and their net present value for the years 1988, 2002 (Landsat, 30 m resolution) and 2010 (RapidEye, 5 m resolution). The purpose of our study was to better understand the pattern and dynamics of the expansion of rubber plantations in Xishuangbanna, as well as its economic prospects and conservation impacts. We found that 1) the area of rubber plantations was 4.5% of the total area of Xishuangbanna in 1988, 9.9% in 2002, and 22.2% in 2010; 2) rubber monoculture expanded to higher elevations and onto steeper slopes between 1988 and 2010; 3) the proportion of rubber plantations with medium economic potential dropped from 57% between 1988 and 2002 to 47% in 2010, while the proportion of plantations with lower economic potential had increased from 30% to 40%; and 4) nearly 10% of the total area of nature reserves within Xishuangbanna has been converted to rubber monoculture by 2010. On the basis of our findings, we conclude that the rapid expansion of rubber plantations into higher elevations, steeper terrain, and into nature reserves (where most of the remaining forests of Xishuangbanna are located) poses a serious threat to biodiversity and environmental services while not producing the expected economic returns. Therefore, it is essential that local governments develop long-term land use strategies for balancing economic benefits with environmental sustainability, as well as for assisting farmers with the selection of land suitable for rubber production.     

海南稻田土壤硒与重金属的含量、分布及其安全性

采集了海南省18个市(县)代表性的稻田土壤耕作层(0—20cm)样品280个,研究了硒(Se)和5种有毒重金属元素(Hg、Cd、Cr、Pb和As)的含量、分布及其相关关系,并对Se和重金属的安全性进行评价,可为合理区划清洁且富Se稻田提供理论依据。结果表明:海南稻田土壤中Hg、Cd、Cr、Pb和As平均含量均低于国家土壤环境质量一级标准值和全国土壤背景值,以绿色食品产地环境技术条件限量标准为标准,用单项污染指数法和内梅罗综合污染指数法评价海南稻田土壤重金属的污染状况,结果都是清洁的。但以海南省土壤背景值做参比值,Hakanson潜在生态危害指数达到211.54,属于强生态危害,从潜在生态危害系数来看,Hg(102.61)和Cd(98.89)达到强生态危害,分别比海南省土壤背景值增加1.56和2.3倍,今后应注意控制Hg和Cd污染源。稻田土壤Se含量从痕量到1.532mg/kg之间,平均值为0.211mg/kg,占47.5%的稻田土壤Se含量处于中等及以上水平(>0.175mg/kg)。Se含量高的稻田土壤主要集中在东北部的海口及其周边的澄迈、定安、文昌和琼海,还有东南部的万宁和保亭。由于重金属平均含量还比较低,可暂时忽略重金属污染,故可在上述Se含量高的稻田土壤上种植富Se水稻。稻田土壤Se含量与Hg、Cd和As含量呈极显著或显著正相关,因此今后应加强研究稻田土壤Se与Hg、Cd和As的有效性及其相互作用,以便生产出绿色的富Se优质大米。     

西安附近苹果林地的土壤干层

根据西安附近苹果林下土壤含水量测定,研究了0~6m之间土壤含水量的变化与土壤干层问题。资料表明,西安附近15龄苹果林下2~3.5m深处土壤含水量为9.1%~9.2%,形成了发育弱的长期性土壤干层,10龄苹果林地2~4m深处也有干层发育,表明黄土高原的土壤干层分布已达黄土高原南部的关中地区;6龄苹果林下土壤有干化的显示,但无干层发育。分析得出,由降水少量决定的、埋藏深度小而厚度大的薄膜水带的存在是引起土壤干层发育的直接作用的因素。土壤干层的出现会引起土壤与植被的退化,应当避免严重的土壤干层出现。     

Losses of soil carbon by converting tropical forest to plantations: erosion and decomposition estimated by δ13C

Indonesia lost more tropical forest than all of Brazil in 2012, mainly driven by the rubber, oil palm, and timber industries. Nonetheless, the effects of converting forest to oil palm and rubber plantations on soil organic carbon (SOC) stocks remain unclear. We analyzed SOC losses after lowland rainforest conversion to oil palm, intensive rubber, and extensive rubber plantations in Jambi Province on Sumatra Island. The focus was on two processes: (1) erosion and (2) decomposition of soil organic matter. Carbon contents in the Ah horizon under oil palm and rubber plantations were strongly reduced up to 70% and 62%, respectively. The decrease was lower under extensive rubber plantations (41%). On average, converting forest to plantations led to a loss of 10 Mg C ha^?1 after about 15 years of conversion. The C content in the subsoil was similar under the forest and the plantations. We therefore assumed that a shift to higher δ¹³C values in plantation subsoil corresponds to the losses from the upper soil layer by erosion. Erosion was estimated by comparing the δ¹³C profiles in the soils under forest and under plantations. The estimated erosion was the strongest in oil palm (35 ± 8 cm) and rubber (33 ± 10 cm) plantations. The ¹³C enrichment of SOC used as a proxy of its turnover indicates a decrease of SOC decomposition rate in the Ah horizon under oil palm plantations after forest conversion. Nonetheless, based on the lack of C input from litter, we expect further losses of SOC in oil palm plantations, which are a less sustainable land use compared to rubber plantations. We conclude that δ¹³C depth profiles may be a powerful tool to disentangle soil erosion and SOC mineralization after the conversion of natural ecosystems conversion to intensive plantations when soils show gradual increase of δ¹³C values with depth.