祁连山中段土壤有机碳和氮素的剖面分布

以祁连山中段地区主要土壤类型(棕钙土、灰褐土、栗钙土、高山草甸土)为对象,研究了不同土壤剖面上有机碳、全氮、铵态氮和硝态氮含量的分布规律.结果表明:在祁连山中段地区,随剖面深度增加,不同土壤类型的有机碳、全氮、铵态氮和硝态氮含量均逐渐降低,且其有机碳、氮素的累积和分解存在差异.其中,有机碳含量的全剖面平均值在14.01～41.17g·kg-1,大小顺序为灰褐土＞高山草甸土＞栗钙土＞棕钙土;全氮含量在1.28～2.73 g·kg-1,为高山草甸土＞灰褐土＞栗钙土＞棕钙土;铵态氮含量在5.80～8.40 mg·kg-1,为棕钙土＞高山草甸土＞栗钙土＞灰褐土;硝态氮含量在6.57～15.11 mg·kg-1,为栗钙土＞高山草甸土＞棕钙土＞灰褐土;土壤C/N在11.33～19.22,为灰褐土＞栗钙土＞高山草甸土＞棕钙土;硝铵比在1.00～2.69,为灰褐土＞栗钙土＞高山草甸土＞棕钙土.在不同的气候、植被和地形(坡位、坡向等)条件下,同一土壤类型的有机碳和氮素含量有很大差别.土壤有机碳、全氮和铵态氮含量之间存在极显著正相关,而这三者与硝态氮之间相关性不显著.土壤速效钾含量与铵态氮、硝态氮呈极显著正相关,速效磷含量与土壤有机碳、全氮和铵态氮呈极显著、显著正相关,而pH值、全钾、全磷含量与有机碳和氮素之间无明显相关性.     

祁连山西水林区土壤发生特性及系统分类

针对祁连山西水林区分布的4个典型土类(棕钙土、灰褐土、栗钙土及高山草甸土)进行了成土环境调查,通过剖面描述和样品分析明确了其发生特性,并据此检索出了各土类在我国现行土壤系统分类中的归属,为祁连山林区土壤特性的研究和土地资源的调查与评价提供了参考。结果表明:林区各土类土层较浅,具有粗骨性,山地特征明显;有机质累积较强,总体呈现高山草甸土>灰褐土>栗钙土>棕钙土;淋溶强度相对于湿润地区较弱,总体呈现高山草甸土>灰褐土≈栗钙土>棕钙土;风化强度总体较弱,不同土壤类型间差异不大;林区土壤剖面具有2类诊断表层、3类诊断表下层及4类诊断特性;棕钙土属于磐状钙积正常干旱土亚类,灰褐土属于钙积暗沃冷凉淋溶土亚类,栗钙土属于普通简育冷凉淋溶土亚类,高山草甸土属于普通简育湿润均腐土亚类。     

鼎湖山主要森林类型土壤交换性阳离子含量及其季节动态特征

研究鼎湖山自然保护区马尾松林、马尾松荷木混交林和季风常绿阔叶林三种代表性森林类型表层土壤(0~20cm)交换性阳离子含量及其季节动态。结果表明:土壤交换性阳离子含量因元素种类、森林类型和季节不同而异。三种森林土壤交换性阳离子含量都表现为:Al3+>H+>K+>Ca2+、Mg2+、Na+。几乎所有调查的阳离子含量在阔叶林显著高于马尾松林和混交林,但后两者之间大多数阳离子含量差异不显著。鼎湖山森林土壤可交换性阳离子含量虽然较高,但盐基饱和度却很低。马尾松林、混交林和阔叶林土壤可交换性阳离子含量在1997年6月份分别为:58.3、84.5和118.7mmolc/kg,盐基饱和度分别为:5.5%、3.2%和4.5%。三种森林土壤交换性Ca2+、Mg2+、K+和H+含量季节差异极显著(P<0.001),但交换性Al3+含量只在马尾松林土壤存在极显著的季节性差异(P<0.001)。同一元素季节变化大小程度趋向马尾松林>混交林>阔叶林。森林土壤交换性Ca2+、Na+和H+含量与土壤pH值相关关系不明显,但交换性Mg2+、K+和Al3+与土壤pH值间呈极显著负相关。     

3种药赏两用植物对滨海盐碱土改良效应的比较

为比较种植药赏两用植物对滨海盐碱土的改良效应,采用实生栽培方法种植了薄荷(Mentha haplocalyxBriq.)、地榆(Sanguisorba officinalis L.)和枸杞(Lycium chinense Mill.)1年生植株,对不同土层的pH值以及可溶性盐和主要离子含量的变化进行了比较分析。结果表明:种植3种植物后,0～10、10～20和20～30 cm土层的pH值以及可溶性盐、K+、Na+、Ca2+、Mg2+、Cl-和SO42-含量均有不同程度的变化,且以0～10 cm土层的变化相对明显,并且各土层的离子组成也有所改变。种植3种植物后,0～10和10～20 cm土层的pH值以及0～10 cm土层的可溶性盐含量均低于对照,其中,地榆种植土壤pH值及枸杞种植土壤可溶性盐含量的降低效应最明显。种植3种植物后,各土层的Ca2+含量及10～20和20～30 cm土层的K+和Mg2+含量均极显著高于对照,各土层的Na+含量及0～10 cm土层的Cl-含量、10～20和20～30 cm土层的SO42-含量均极显著低于对照;不同土层的K+/Na+值均高于对照、(K++Na+)/(Ca2++Mg2+)值均低于对照、主要阳离子(Ca2+、K+和Mg2+)的交换量总和均明显增加。总体上,地榆和枸杞对土壤中K+及Ca2+和Mg2+含量、K+/Na+值、主要阳离子(Ca2+、K+和Mg2+)交换量总和的提高效应以及对Na+含量、(K++Na+)/(Ca2++Mg2+)值的降低作用均较强,而薄荷的作用均较弱。研究结果显示:供试的3种药赏两用植物对盐碱地均具有明显的改良作用,其中枸杞和地榆的改良效果较好。     

东北阔叶红松林腐殖质层土壤阳离子交换性能及其主要影响因素

阔叶红松林是中国东北地区的典型地带性植被,生物多样性丰富,是我国重要的生态资源。本文分析了9个纬度阔叶红松林腐殖质层土壤交换性Ca、Mg、K、Na、有效阳离子交换量(ECEC)、交换性酸等的分布及其主要影响因素。结果表明,腐殖质层土壤具有较强的盐基元素生物富集功能;土壤交换性盐基离子和ECEC纬度分异不明显;年均温或年均降水量影响土壤交换性Mg和K含量。土壤有机质和p H是交换性盐基离子和ECEC分布的主导影响因素,且均为正向影响。土壤交换性酸含量与ECEC、p H呈极显著负相关关系。     

盐胁迫对药用蒲公英生长特性及有效成分积累与离子吸收分配效应的影响

以药用蒲公英(Taraxacum officinale)为试材,研究不同浓度盐胁迫对其生长特性、有效成分积累和离子吸收分配的影响。结果表明,低盐胁迫(0.1% NaCl)对药用蒲公英生长和菊苣酸含量无显著影响,叶中Na+含量与对照无显著差异,K+含量及K+/Na+显著升高;高盐胁迫(≥0.2% NaCl)下其生长受到显著抑制,菊苣酸含量显著降低,类囊体膜结构随着盐胁迫加剧趋于紊乱,光合能力减弱,叶片Na+含量显著上升,而K+、Ca2+和Mg2+含量下降,K+/Na+、Ca2+/Na+和Mg2+/Na+显著降低。离子运输选择性系数(SCa,Na、SMg,Na、SK,Na)随着盐胁迫加剧呈先升后降趋势。相关性分析表明,盐胁迫下蒲公英叶片Na+含量与叶片生理指标呈极显著负相关。因此,叶片Na+富集是药用蒲公英遭受盐害导致生长受抑制的主要原因之一。     

保护性耕作对土壤交换性盐基组成的影响

以辽宁省彰武县保护性耕作示范推广基地土壤为研究对象,通过实地调查和取样分析,对比研究了传统犁耕和6年保护性耕作（免耕秸秆覆盖）条件下的土壤交换性盐基组成.结果表明：在15 cm土层内,保护性耕作土壤的交换性K、Ca、Mg含量和盐基总量（SEB）较传统犁耕均有不同程度增加,表明保护性耕作使土壤的保肥和缓冲能力增强.相关分析表明,这与土壤的有机质和粘粒含量的变化密切相关;保护性耕作土壤的K/SEB和Ca/Mg高于传统犁耕,而(Ca+Mg)/SEB、Ca/K和Mg/K低于传统犁耕,说明保护性耕作对土壤交换性盐基比例关系的影响以交换性Ca、K特别是K的相对富集为主要特征;保护性耕作提高了交换性K、Ca、Mg含量与SEB的分层比率(0～5 cm/5～15 cm和0～5 cm/15～30 cm),表明交换性盐基在耕层剖面的垂直变异性增强.     

松嫩平原盐碱土饱和浸提液与土水比1:5浸提液间化学参数的换算关系

采用饱和浸提液与土水比1:5浸提液两种方法分析了松嫩平原94份盐碱土样品的电导率、钠吸附比、主要阳离子(Na+、K+、Ca2+、Mg2+)以及总阳离子浓度等化学参数,并对两种方法测定的盐碱化参数相关性进行了研究.结果表明:饱和浸提液电导率、钠吸附比、总阳离子浓度、Na+离子浓度与土水比1:5浸提液相应参数存在极显著的相关关系,其关系方程可用于松嫩平原盐碱土饱和浸提液与1:5浸提液间化学参数的换算;而K+、Ca2+、Mg2+离子浓度在两种浸提液间不存在相关性.     

Responses of exchangeable base cations to continuously increasing nitrogen addition in alpine steppe: A case study of Stipa purpurea steppe

土壤交换性盐基离子(Ca ²⁺、Mg ²⁺、K ⁺、Na ⁺)在维持土壤养分与缓冲土壤酸化中起着重要作用, 了解其对氮添加的响应有助于准确评估氮沉降背景下生态系统结构与功能的动态变化。然而, 目前关于土壤交换性盐基离子对氮添加响应的相关研究主要集中在酸性土中。鉴于目前在碱性土中研究相对较少的现状, 该研究以青藏高原高寒草原为研究对象, 依托氮添加控制实验平台, 通过连续3年(2014-2016)的测定, 考察了8个不同施氮水平(0、1、2、4、8、16、24、32 g·m ^-2·a ^-1)下土壤交换性盐基离子含量变化及其可能原因。结果显示: 随着施氮量的增加, 土壤交换性盐基离子, 尤其是Mg ²⁺与Na ⁺含量显著降低。并且, 盐基离子含量与植物地上生物量显著负相关(p < 0.05), 说明氮添加通过促进植物生长, 加速植物对盐基离子的吸收, 进而导致土壤中盐基离子含量降低。此外, 盐基离子含量也与土壤无机氮含量呈显著负相关(p < 0.05)关系, 说明施氮还通过提高土壤中无机氮含量进而导致更多NH₄ ⁺与土壤吸附的盐基离子交换, 同时加剧NO₃ ^-淋溶, 带走等电荷阳离子。需要指出的是, 虽然连续施氮导致土壤pH值下降, 但该土壤目前仍处于碳酸盐缓冲阶段, 说明通常在酸性土中报道的“因缓冲土壤酸化引起的盐基离子损失机制”在碱性土中并不成立。这些结果意味着持续的氮输入会造成碱性土中盐基离子损失, 进而影响土壤缓冲能力与植被生产力, 未来草原生态系统管理中应重视这一问题。     

丛枝菌根真菌(AMF)对盐胁迫下芦笋幼苗生长及体内Na~+、K~+、Ca~(2+)、Mg~(2+)含量和分布的影响

以芦笋盐敏感品种‘NJ978’为材料,采用盆栽试验,研究了接种丛枝菌根真菌(AMF)对Na Cl胁迫下芦笋幼苗生长及体内Na+、K+、Ca2+、Mg2+吸收和分布的影响。结果表明:在Na Cl胁迫下,幼苗株高、鲜重、干重均显著降低,接种AMF可以有效缓解盐胁迫对芦笋幼苗生长的抑制;Na Cl处理的芦笋幼苗根系和地上部Na+含量显著高于对照,K+、Ca2+、Mg2+的含量则显著减少;AMF+Na Cl处理的芦笋幼苗根系K+、Ca2+、Mg2+含量与Na Cl处理相比,分别增加了76.9%、23.1%和22.5%,而Na+含量则减少了27.4%;AMF+Na Cl处理的芦笋幼苗地上部K+、Ca2+、Mg2+含量与Na Cl处理相比,分别增加了58.4%、50.4%和76.0%,而Na+含量则减少了42.3%。与Na Cl处理相比,接种AMF可以降低盐胁迫下芦笋幼苗根系和地上部Na+/K+、Na+/Ca2+、Na+/Mg2+,提高根系选择吸收性ASK,Na、ASCa,Na、ASMg,Na和根系向地上部的选择运输性TSK,Na、TSCa,Na、TSMg,Na。由此表明,盐胁迫下接种AMF可以通过调节芦笋体内的离子平衡,从而缓解盐胁迫对植株的伤害。     

Vegetation-soil relations in the lowlands of south-west Tasmania

A geographic survey of 14 south-west Tasmanian sedgeland-heaths revealed that soil organic matter is related to: water content: total nitrogen (N): total and exchangeable sodium (Na), calcium (Ca) and magnesium (Mg); exchangeable potassium (K) cation exchange capacity; and total exchangeable bases. However, total and available phosphorus (P), total K and Iron (Fe). pH level and percentage base saturation were found to be Independent of organic content. Most of the soil nutrient capital is contained In the A₀ horizon, the depth of which was found to be positively related to the time elapsed since the last fire. There is no clear relationship between rock type and soil fertility, but there is evidence of soil-vegetation interaction. The sedgeland-heath species have lower concentrations of P, Ca and Mg in their foliage and are more efficient In the withdrawal of P and K upon tissue senescence than the surrounding scrub and forest species. Over a vegetation transition from sedgeland-heath to forest on uniform geology there was a change in soil type. The forest was found to have more fertile soils and a higher concentration of nutrients in the above-ground biomass than the adjacent sedgeland-heath. The ecotone was burnt between 20–30 years prior to sampling, but the fire did not kill all the forest trees, and the structural differences suggest a mare rapid recovery of forest species. Soil fertility appears to be an important factor in controlling the rate of recovery and succession following a fire, especially if the nutrient-rich organic layer is burnt.     

Relations of soil properties to topography and vegetation in a subtropical rain forest in southern Taiwan

Soil chemical properties for a subtropical rain forest in the Nanjenshan Reserve, southern Taiwan, were examined to determine soil-landscape and soil-vegetation relationships. Soil sampling sites were separated into four groups based on landscape features and exposure to the prevailing northeasterly monsoon winds. Corresponding vegetation types were delimited along the first DCA axis. The forest showed a drastic change both in structure and floristic composition along the wind-stress gradient. Redundancy analysis (RDA) showed that both topographic variables and vegetation types were needed to explain the variation in soil data. Soil properties that differed significantly among landforms were pH, available N, CEC, exchangeable Al, K, Ca and Mg. Levels of pH, exchangeable Ca and Mg increased in a downslope direction, and exchangeable Al tended to be higher in the upper slope soils. These trends pointed to the importance of slope processes in redistribution of soil minerals. The main differences in soil properties attributed to the influence of the occupying vegetation were apparently aspect dependent. The contents of available N, exchangeable K, and CEC in the 0–40 cm depth of soils under windward low-stature (mostly sclerophyllous) forest were consistently lower compared to those under the leeward forest. For a given catena, however, soil variability associated with vegetation differences seemed to be confounded by the slope processes.     

Macro nutrient cation uptake by plants

Summary In pot experiments with barley, mustard, leek, lettuce and spinach, and in a field experiment with 30 cultivars of barley uptakes of K, Mg, Ca, Na and N were studied at varying concentrations and activities of these cations in the soil solution.The sum of macro cations (K, Mg, Ca, Na) in meq per 100 g aerial plant parts were independent of the chemical composition of the soil solution, but dependent on plant species and on the N concentration in the plant.The ratios of mean net inflows of Mg, Ca and K into plants and corresponding cation activity ratios (a_Mg/a_Ca and ) in the soil solution were linearly related and highly correlated under conditions in which growth rate and/or rate of incorporation into new tissues constituted the rate determining step of cation uptake. Consequently, mean net inflows of K, Mg and Ca were independent of ion concentration and ion activity of K, Mg or Ca in the soil solution under the conditions of constant activity ratio.The results agree with the concept that plants have a finite cation uptake capacity, and that plants are in a equilibrium-like state with the activities of K, Mg, and Ca ions in the soil solution. The results indicate that both ratios and content of exchangeable cations should be considered in our evaluation of soil test data.     

Base cation biogeochemistry and weathering under oak and pine: a controlled long-term experiment

Large earthen-walled lysimeters at the San Dimas Experimental Forest in southern California present a unique opportunity to assess vegetation effects on biogeochemical processes and cation release by weathering in controlled soil-vegetation systems where archived samples of soil parent material are available for comparison. The lysimeters were filled in 1937 with homogenized fine sandy loam derived on site from the weathering of diorite, and planted in 1946 with scrub oak (Quercus dumosa) and Coulter pine (Pinus coulteri). Changes in base cation contents were measured in above-ground biomass, and total and exchangeable soil pools to a depth of 1 meter. All cations in the non-exchangeable soil pool decreased relative to the initial fill material, indicating release by weathering. Sodium and K were depleted from both exchangeable and non-exchangeable pools of the soils. Plant uptake of Na was minimal, whereas K storage in vegetation exceeded the loss from the exchangeable soil pool. In both soil-vegetation systems, but especially for oak, there was an increase in exchangeable Ca and Mg. For all base cations, storage in above-ground biomass was greater for oak, whereas losses by weathering from the non-exchangeable soil pool were greater under pine. Strong evidence supports biocycling as a controlling mechanism resulting in greater Ca and Mg release by weathering under pine. In addition, decreases in non-exchangeable Ca and Mg were strongly correlated to decrease in Si under oak, whereas no correlation was observed under pine. We conclude that weathering reactions or stoichiometry differed between vegetation types.Corresponding author     

The pinus scrub community as an indicator of soils in Hong Kong

Summary Consisting ofPinus massoniana, Rhodomyrtus tomentosa, Baeckea frutescens andDicranopteris linearis, thePinus scrub community is widespread and representative of the vegetation in Hong Kong. Three areas, with soils derived separately from granite, sedimentary and volcanic rocks but of the same pine community were selected for the present study. Soil samples were collected and analysed for pH, texture, organic carbon, total nitrogen, cation exchange capacity, and exchangeable K, Na, Ca, Mg, Fe, Mn, Al and H. Plant samples were also collected for the analysis of K, Na, Ca, Mg, Mn, Al, Fe and SiO₂.While variations in chemical and physical properties exist among the soils of different geology, they are invariably acidic with high exchangeable Al and H ions whereas the base saturation is exceedingly low. Intra- and inter-species variations in chemical composition are equally notable. While K, Mg and Ca are the dominant elements of uptake and accumulation, the fernD. linearis also stands out as a strong accumulator of SiO₂, Al and to some extent, Mn and Fe.     

硅钙钾镁肥对南方稻田土壤酸性和盐基离子动态变化的影响

南方稻田土壤大面积酸化是水稻生产的主要限制因子.尽管石灰作为酸化土壤调理剂已广泛应用,但大量或长期施用石灰不仅会引起土壤板结,而且会导致土壤钙、钾、镁等元素的平衡失调.硅钙钾镁肥由于溶解度更低、养分全面是良好的替代材料.为了明确硅钙钾镁肥阻控土壤酸化的效果和作用,本研究采用连续4年的硅钙钾镁肥田间定位试验,以农民习惯施肥为对照,分析在农民习惯施肥基础上增施750、1125、1500和1875 kg·hm^-2硅钙钾镁肥下稻田土壤pH、交换性酸、交换性盐基离子和有效硅的动态变化.结果表明: 农民习惯施肥导致土壤pH、土壤交换性盐基和盐基饱和度逐年下降,土壤交换性酸逐年增加.与之相反,硅钙钾镁肥处理显著提高了土壤pH值,提高幅度随硅钙钾镁肥施用次数或用量的增加而增大.连续多次施用硅钙钾镁肥有效促进了盐基离子在土壤中的累积和土壤交换酸的消耗,特别是土壤交换性Ca²⁺、Mg²⁺的累积和土壤交换性Al³⁺的消耗,硅钙钾镁肥用量越大,积累或消耗的量越多,但速率相对越慢.土壤交换性酸消耗量中,硅钙钾镁肥释放的交换性盐基离子和相应碱贡献了108.8%,是交换性酸减少的主要途径.硅钙钾镁肥在改良稻田土壤酸性的同时,土壤有效硅含量逐年增加,增幅随硅钙钾镁肥施用量的增加而显著增大.总之,农民习惯施肥导致土壤持续酸化,酸化率为2.86 kmol H⁺·hm^-2·a^-1,硅钙钾镁肥能有效阻控酸化过程,产生了大量碱(9.69~18.44 kmol OH^-·hm^-2·a^-1),释放的Ca²⁺、Mg²⁺盐基离子和相应碱是土壤酸化阻控的主要作用因子.     

Spatial heterogeneity of soil properties in areas under elephant-grass short-duration grazing system

Soil properties can be changed by several factors, such as plant roots and animal trampling. The identification of spatial heterogeneity of these properties depends on the sampling scale. This study was developed to test the hypothesis that soil chemical and physical properties beneath elephant-grass plants are different from those between them. The research was carried out in a soil classified as Kandiudalfic Eutrudox. Forty-eight soil samples were collected from 0-10 cm depth (24 beneath plants and 24 between plants). The following properties were measured: pH, organic matter, S, available P, K, Ca and Mg exchangeable, sum of bases, cation exchange capacity, base saturation percentage, dry-aggregate distribution, bulk density and soil penetration resistance. Statistical analyses (t test) indicated that there were no significant differences in soil chemical properties in relation to spatial position. However, significant differences were observed in soil physical properties, with higher values of bulk density and soil resistance to penetration between the plants than beneath the plants.     

Influence of alpine plants on soil nutrient concentrations in a monoculture experiment

The ability of different alpine species to influence soil nutrient concentrations was quantified by growing monocultures of 17 species on a homogenized acid alpine soil mixture. The experiment was carried out at 2750 m a.s.l. in the Teberda Reserve, Northwest Caucasus. Soil nuturient contents (NH₄, NO₃, P, Ca, Mg, and K) and pH were analyzed after 6 years. The same soil mixture but without plants was used as a control. The plant species had significant effects on all soil properties. Different species groups tended to decrease different nutrients to different extents, e.g.Matricaria caucasica had the lowest level for NO₃ andFestuca ovina for P. Many species increased the cation content (Ca, Mg, K) in the soil in comparison with the control. Prevention of cation leaching seems to be the main mechanism of these increases, because initial cation contents were higher than the final. All species, exceptSibbaldia procumbens, increased soil pH in comparison with the final control. Significant differences among taxonomic groups (families) were found for exchangeable Ca, Mg, and pH.Fabaceae decreased cation contents (Ca, Mg), but tended to increase nitrogen (NH₄, NO₃).Cyperaceae (Carex spp.) tended to decrease ammonium content, and bothAsteraceae andCyperaceae tended to decrease nitrate concentrations. The phosphorus content tended to be reduced by grasses. There was no strong correspondence between properties of native soils of 4 alpine communities and nutrient concentrations for species preferring those communities.     

我国23个土壤磷素淋失风险评估Ⅱ.淋失临界值与土壤理化性质和磷吸附特性的关系

从13个省（市）采取23个耕地表层土壤,通过室内模拟试验测定其磷素淋失临界值和pH、有机质、＜0.01mm、＜0.002mm、交换性钙镁、活性铁铝、磷等温吸附特性等,以建立土壤磷素淋失临界值与土壤基本理化性质和磷吸附特性之间的关系.结果表明：土壤pH＜6.0时,随土壤pH提高临界值增加,土壤pH与临界值之间呈显著的指数关系;而当土壤pH＞6.0时,随土壤pH提高临界值减小,在pH6.5左右土壤磷素淋失临界值最高.土壤磷素淋失临界值与土壤有机质、活性铁（铝）、交换性钙之间存在显著的相关,而与交换性镁、CEC、＜0.01mm、＜0.002mm、K、Qm的相关性受土壤酸碱度影响.可以通过测定土壤有机质或活性铁的含量,来计算土壤磷素淋失临界值,评价土壤磷素淋失的风险.供试的23个土壤,除了采自湖北潜江的20号水稻土存在比较大的磷素淋失风险,其余土壤发生磷素淋失的风险很小.