陕西红富士苹果矿质营养DRIS标准研究

通过对60个红富士苹果园叶片中N、P、K、Ca、Mg、Fe等6种元素含量的测定和统计分析表明,苹果产量和品质是叶片N、P、K、Ca、Mg、Fe等元素含量综合作用的结果;通过主因素分析,各因素对产量的影响顺序为产量(Y1)x3(K)>x2(P)>x1(N)>x4(Mg)>x5(Ca)>x6(Fe);对可溶性固形物浓度(Y2)的影响顺序为x4(Mg)>x3(K)>x6(Fe)>x1(N)>x5(Ca)>x2(P);对硬度(Y3)的影响顺序为x1(N)>x6(Fe)>x3(K)>x4(Mg)>x2(P)>x5(Ca);对>80%果面红色果占有率(Y4)的影响顺序为x3(K)>x2(P)>x1(N)>x4(Mg)>x5(Ca)>x6(Fe);对低产组(产量<22 500 kg/hm2)大量元素需肥强度影响最大的为K,占该组的53.4%,对中量元素需肥强度影响最大的为Ca和Mg,均占该组的40%;对高产组(产量≥22 500 kg/hm2)DRIS重要参数的表达式为N/K、P/N、K/P,Ca/Mg、Fe/Ca、Fe/Mg,N/K、Ca/K、Ca/N,K/P、Fe/P、Fe/K,Ca/K、Mg/K、Ca/Mg,根据试验结果制定出红富士苹果园N、P、K、Ca、Mg、Fe的DRIS适宜指数范围分别为-8.355～23.011、-13.784～22.078、-12.772～9.544、-2.114～11.532、-2.503～8.902、-4.617～5.291;各园的需肥顺序用图示法和指数法判断,其结果一致.     

林地覆盖经营对雷竹鞭根主要养分内循环的影响

为了给林地覆盖经营雷竹(Phyllostachys violascens)林可持续经营提供理论参考,探讨了休养式覆盖经营(覆盖3a后休养3a)、长期覆盖经营(覆盖6a)和不覆盖雷竹林(CK)2年生壮龄竹鞭及其1级、2级根N、P、K、Mg、Ca、Fe浓度和养分迁移、内循环率的差异。结果表明:不同覆盖经营年限雷竹林N、P、K、Mg、Ca和Fe浓度总体上1级根显著高于2级根。1级根和2级根中均存在N、P、K、Mg的养分内循环,且1级根养分内循环率大于2级根,Fe、Ca内循环不明显。N、P、K、Mg养分浓度与养分迁移速率随时间的推延,1级根为持续降低,2级根为先升高后降低。与不覆盖雷竹林相比,休养式林地覆盖经营总体上提高了1级、2级根的N、P、K、Ca的浓度和P、K、Mg的迁移速率、N、P、K的迁移量、P、K的养分内循环率以及1级根Mg的浓度和迁移量、2级根N的迁移速率和Mg的内循环率;长期林地覆盖经营虽提高了雷竹1级根N、K的浓度和N的迁移量及2级根N的浓度和内循环率,但总体上降低了1级根P、K、Mg和2级根N、P、Mg的迁移量与1级、2级根P、Mg的迁移速率及P、K、Mg的养分内循环率。研究表明:雷竹林鞭根中存在明显的养分内循环,且1级根对养分内循环的贡献较大。休养式林地覆盖经营利于雷竹林对养分的循环利用,而长期覆盖经营阻碍了根系对养分的平衡吸收,减弱了根系养分的内循环,不利于雷竹林的生长更新。     

神农架常绿落叶阔叶混交林凋落物养分特征

凋落物是联结陆地生态系统植物与土壤养分的重要媒介,了解凋落物养分特征有助于理解陆地生态系统物质循环的机理。该研究于2015年收集了神农架地区常绿落叶阔叶混交林的新鲜凋落物及现存凋落物,测定其不同器官中大量元素(C、N、P、K、Ca、Mg)的含量,据此分析其养分含量、养分归还量、养分储量及化学计量比的特征。结果发现:该常绿落叶阔叶混交林新鲜凋落物的C、K养分含量显著高于现存凋落物,N、P、Ca、Mg养分含量显著低于现存凋落物;其凋落物大量元素的养分归还量及养分储量大小顺序均为C Ca N Mg K P,分别为1569.84、52.44、34.82、6.24、5.24、1.30 kg hm~(-2) a~(-1)及1835.29、87.87、51.17、12.12、3.90、1.95 kg hm~(-2) a~(-1);其新鲜凋落物及现存凋落物的C∶N∶P分别为1307.33∶27.73∶1及976.48∶26.77∶1,新鲜凋落物的C∶N、C∶P显著高于现存凋落物,N∶P无显著区别。研究表明,新鲜凋落物与现存凋落物养分含量之间的差异与不同元素在分解过程中的可淋溶性及生物固持等因素有关。该地区常绿落叶阔叶混交林凋落物养分归还量及养分储量相对于亚热带阔叶林平均水平较低;且显著低于喀斯特地区同类型森林,主要与其凋落物产量、降水量及植被类型有关。该森林生态系统新鲜凋落叶与中国及全球范围内阔叶树种凋落叶相比C∶N较低,C∶P、N∶P较高,这可能是由于该地区N沉降及P限制现象较为严重所致。     

三倍体毛白杨-黑麦草复合生态系统林木细根与草根的分解及养分动态

在天全县的退耕还林地中,对三倍体毛白杨细根与黑麦草草根的分解及其N、P、K、Ca和Mg养分动态进行了研究.结果表明,细根直径0～1、1～2和0～2 mm及草根的分解速率与时间呈负指数关系,第1年干重损失率分别为76.17%、69.80%、73.44%和79.3%,分解0%所需的时间分别为217、266、24和172 d.细根分解过程中,N和Ca浓度增加,而P、K、Mg浓度下降;草根分解过程中,其养分元素的浓度变化整体上没有规律.细根分解过程中P、K和Mg的养分残留率与其干重残留率的变化趋势相似,分解前期下降较快,随后下降比较平缓,N和Ca的养分残留率下降则比较平缓,并且养分的分解速率均以P最快,其次是K和Mg,而N和Ca最慢;草根分解过程中N、P、K、Ca和Mg的养分残留率初期下降比较快,随后趋于平缓,并且元素分解速率呈不规则变化,其中Ca分解速率最慢,其它元素的分解速率相近.     

福建省马尾松和杉木针叶中7种营养元素含量特征

为了解福建省马尾松和杉木人工林养分需求特征,选取25个马尾松(Pinus massoniana)林和31个杉木(Cunninghamia lanceolata)林,测定了针叶中7种主要营养元素(C、N、P、S、K、Ca、Mg)含量。结果表明,马尾松针叶K、Ca、Mg含量显著低于杉木,分别是杉木的68%、14%、50%,表明杉木对矿质养分尤其Ca的需求远高于马尾松,提示马尾松比杉木更能适应矿质养分尤其Ca较贫瘠的立地。两树种针叶C、N、P、S含量及其化学计量比均表现出相似的内稳态特征,而Ca、Mg、K含量及其化学计量比的变异大,表明这3种矿质元素受立地条件的影响较大。两树种对N、P、K需求表现为协同正相关关系,N与Ca含量则为负相关关系,暗示持续N沉降或营林实践中长期施N肥可能抑制Ca的吸收。     

青冈常绿阔叶林凋落物分解过程中营养元素动态

应用分解袋法研究了浙江建德青冈常绿阔叶林凋落物分解过程中的养分动态.结果表明,在2a的分解过程中,各凋落物元素的年均释放率为C 27.91%～44.06%,N 30.77%～39.58%,P 33.33%～42.86%,K 42.31%～48.19%,Ca 18.67%～36.22%,Mg 35.71%～47.22%,Mn 25.00%～37.50%,Cu 3.80%～16.21%,Zn -17.52%～26.60%.K和Mg流动性较大,Zn、Cu和Ca相对稳定,P、Zn、Cu、Ca、N和Mn在分解过程中有不同程度累积.干物质残留量与N、Ca、Mn、Cu和Zn的残留率呈负相关,与C、K和Mg呈正相关.C、N主要以线性衰减方式释放,P和Mg主要以复合函数方式释放,K主要以对数方式释放,Ca、Mn、Cu和Zn残留率具有3种以上的最优模型.Cu、Zn、Ca和Mn对干物质的分解有促进作用.C：N比是预示分解速率的最理想指标.枯叶中C：N比对于N固持和矿化的分界值在20：1左右,C：P比对于P的净矿化的临界值在600：1左右.     

亚热带湿地松叶片多元素化学计量与养分回收对氮添加的短期响应

在我国南方亚热带湿地松人工林设置了3个水平的野外氮添加控制试验(0、40、120 kg N·hm^-2·a^-1),于2014和2015年生长季高峰期(7月底)和末期(10月底)采集湿地松成熟绿叶和落叶,分析外源氮添加对湿地松叶片碳(C)、氮(N)、磷(P)、钾(K)、钙(Ca)、镁(Mg)、铝(Al)、铁(Fe)、锰(Mn)9种元素浓度及其养分回收的影响.结果表明: N添加显著增加了湿地松绿叶中N、Al、Mn浓度,降低了P和2014年的Ca浓度,而对C、K、Mg、Fe 浓度无显著影响.N添加显著提高了绿叶N/P,且该比值及绿叶养分浓度(N、P、Mn)对N添加的响应依赖于N的剂量(高N条件下响应更强).N添加显著降低了2015年N的回收效率,提高了2014年K的回收效率.相比于养分回收效率,回收能力对增加的可利用氮响应更强.N添加显著降低了N的回收能力,提高了P、K的回收能力,降低了枯叶中的Fe浓度,而对枯叶中Ca、Mg、Al、Mn浓度无显著影响.这表明,N添加对叶片化学计量的影响因不同元素而异,植物会通过调整自身的养分内循环(养分回收)来应对环境变化.N添加提高了绿叶N/P和K/P,说明氮添加条件下植物生长可能由N、P共同限制转变为P限制.氮添加增加了绿叶中Al、Mn浓度,表明N添加下湿地松面临潜在的金属离子毒性风险升高.     

长白山林线主要木本植物叶片养分的季节动态及回收效率

植物叶片养分含量的季节动态和回收效率对植被生态系统的养分循环和植物生长策略具有重要意义。以长白山高山林线上分布的3种主要木本植物——岳桦(Betula ermanii),牛皮杜鹃(Rhododendron aureum)和笃斯越橘(Vaccinium uliginosum)为研究对象,通过测定叶片中N、P、K、Ca、Mg、Fe等6种养分元素含量,分析在林线处植物叶片养分含量的季节动态及其与土壤养分含量的关系。结果表明岳桦和笃斯越橘叶片中养分元素的季节动态基本一致,即:N、P、K含量在生长季内逐渐降低,而Ca的含量逐渐增加;Mg在生长季旺盛期最低,而Fe含量却最高。牛皮杜鹃作为常绿灌木,叶片养分的季节动态与其余两种植物明显不同,表现为在生长季初期6种养分元素含量最低。岳桦和笃斯越橘植物叶片中N、P、K、Fe都有一定程度的回收,但笃斯越橘叶片的养分回收率更高,反映了笃斯越橘更能适应相对贫瘠的环境。3种林线植物叶片中养分含量与土壤养分并不存在显著的相关性,说明长白山林线上土壤中养分的分布没有对林线上3种主要的木本植物的生长和分布产生直接的影响。     

油茶低产林养分需求和时间配置动态变化研究

以常宁油茶低产林为研究对象,分析了油茶低产林树体各器官及土壤养分时间动态变化。结果表明:油茶低产林树体在不同生长期需求的大量元素均为全N、Ca和全K最多,而需求的Mg和全P最少;需求的微量元素均为Mn和Fe最多,Cu和Cd最少;春梢期供应的土壤养分元素是速效N和Mg,夏梢期主要供应的土壤元素是速效K、全N、全P、Fe和有机质,果实成熟期主要供应的土壤养分元素是全K,开花期主要供应的土壤元素是速效P和Ca;不同时间油茶低产林养分需求为春梢期(28.36%)夏梢期(26.17%)果实成熟期(22.75%)开花期(22.73%);土壤养分供应为夏梢期(2999.83±87.04 mg/kg)果实成熟期(2703.93±292.26 mg/kg)开花期(2554.60±508.84 mg/kg)春梢期(2385.88±199.62 mg/kg);油茶低产林在不同生长期需要的养分和土壤供应的养分并不一一对应。研究结果可为油茶低产林的施肥时间配置和养分时间变化提供科学依据,在春梢期多施肥。     

武夷山甜槠生态系统的养分平衡研究（英文）

本文通过比较大气降水的养分输入与由地表径流和地下渗流的养分输出,对武夷山甜槠林生态系统的养分平衡进行了研究。结果表明：在1993年4月至1994年4月期间,通过大气降水进入甜槠林的养分元素以N最高,为34.207kg·hm-2,其余依次为Ca(22.99kg·hm-2)、S(12.722kg·hm-2)、Na(6.679kg·hm-2)、K(3.558kg·hm-2)和Mg(2.057kg·hm-2),以P的输入最低,仅1.779kg·hm-2;由地表径流和地下渗流的养分输出总量N、P、K、Ca、Mg、S、Na分别为5.68、1.016、7.345、3.430、0.620、0.534、0.576kg·hm-2,以K的输出量最高,S的输出最少。其中,通过地下渗流的养分损失占输出总量的85.97％～96.38％,而地表径流的养分输出仅占总输出的3.62％～14.03％;在该系统中,N、Ca和S有大量的积累(分别为28.527、19.560和12.188kg·hm-2),Mg和Na有少量积累(分别为 1.437和6.103kg·hm-2),P基本上处于平衡状态(0.763kg·hm-2),而K则为净的输出损失(-3.787kg·hm-2)。岩石风化对于该生态系统K的补偿可能起重要作用,而其他养分元素仅通过降水输入即可得到补充。     

Element loss on rain forest conversion in East Amazonia: comparison of balances of stores and fluxes

Nutrient loss from forest ecosystems by burning and leaching can be estimated by comparing nutrient stores before and after the disturbance, and by measuring the nutrient fluxes during disturbance. We applied both methods to a clear cutting experiment near Belem, Eastern Amazon, in a correct time series of 15 months duration. Nutrient flux measurements include wood export, loss to the atmosphere by burning, and leaching. The latter was based on water flux simulation with a soil water model, and on element analysis of soil water extracts (ceramic cup lysimeter). Two plots with 33 and 92tha^–1 of residual biomass (left after export of wood >7cm diameter) were compared with a forest control plot. Store and flux balances agreed well in case of Na, K, Mg, and S, and partially also for Ca and total P. Deviations seem to be caused by erratic but statistically not significant variations of the soil stores (mainly C and total N). Spacial variability of soil parameters demand very high sample replication, especially after disturbance. Flux measurements are better but more costly.     

Merging aquatic and terrestrial perspectives of nutrient biogeochemistry

Although biogeochemistry is an integrative discipline, terrestrial and aquatic subdisciplines have developed somewhat independently of each other. Physical and biological differences between aquatic and terrestrial ecosystems explain this history. In both aquatic and terrestrial biogeochemistry, key questions and concepts arise from a focus on nutrient limitation, ecosystem nutrient retention, and controls of nutrient transformations. Current understanding is captured in conceptual models for different ecosystem types, which share some features and diverge in other ways. Distinctiveness of subdisciplines has been appropriate in some respects and has fostered important advances in theory. On the other hand, lack of integration between aquatic and terrestrial biogeochemistry limits our ability to deal with biogeochemical phenomena across large landscapes in which connections between terrestrial and aquatic elements are important. Separation of the two approaches also has not served attempts to scale up or to estimate fluxes from large areas based on plot measurements. Understanding connectivity between the two system types and scaling up biogeochemical information will rely on coupled hydrologic and ecological models, and may be critical for addressing environmental problems associated with locally, regionally, and globally altered biogeochemical cycles.We dedicate this paper to the memory of Catherine Lisa Dent, a member of our working group who contributed much to the ideas presented herein, and to the joy of developing them together.Due to an error in the citation line, this revised PDF (published in December 2003) deviates from the printed version, and is the correct and authoritative version of the paper.     

华南人工林凋落物养分及其转移

对华南 5种人工林凋落物量、凋落物养分及绿叶养分含量的测定结果表明 ,各种人工林凋落物量大小依次为 :马占相思 (11.1t·hm-2 ) >湿地松 (7.3t·hm-2 ) >荷木 (6 .5t·hm-2 ) >大叶相思 (4.8t·hm-2 ) >柠檬桉(2 .6t·hm-2 ) .马占相思通过落叶回归土壤的养分量高于其它类型 .5种人工林均通过养分转移机制 ,大量从枯老叶中转移N、P、K养分 ,其中马占相思转移的养分量最大 ,营养转移的季节性差别较大 .各种人工林对其它元素的转移现象不确定 .     

植物养分利用效率研究综述

养分利用效率的概念是理解生态系统功能的中心。本文从植物养分利用效率的概念出发,对养分利用效率的表示与计算方法、影响因素以及养分再吸收的生物化学基础等进行综述,分析目前研究中存在的问题,最后指出今后应加强研究的方面。     

Leaf phosphorus fractionation and growth responses to phosphorus of the forage legumes Trifolium repens, T. dubium and Lotus pedunculatus

'Grasslands Huia' white clover ( Trifolium repens L.), 'Grasslands Maku' lotus ( Lotus pedunculatus Cav.) and suckling clover ( T. dubium Sibth) were grown in a controlled environment at various levels of P supply. Dry weights and the concentration of inorganic-, lipid-, ester- and residual-P in trifoliate leaves were measured. Lotus grew better than white or suckling clover at low P. White clover and lotus responded steeply to increased P and had similar shoot dry weights at high P. Suckling clover had lower shoot weights than the other species at all P levels. The superior growth of lotus at low levels of p was probably due to better root growth and P uptake. Lotus had higher shoot P concentrations at low levels of P but lower concentrations than the others at high levels. White clover and suckling clover had similar shoot P concentrations at all levels of supply. In white and suckling clover total leaf P concentration rose with P supply. Of the P fractions, inorganic-and residual-P showed the largest rises in concentration. The increases in lipid- and ester-P were smaller. Increases in lotus leaf P were small, primarily because of the relatively small rises in inorganic- and residual-P. White clover is a vigorous species but requires high levels of P for best growth. Suckling clover has a relatively small response to improvements in P availability. The behaviour of the various P fractions is similar to that in white clover. Lotus grows well at low P but also shows rapid growth at high P supply. Whether efficiency is defined as the ability to extract P from the environment or to maintain low internal P concentration, lotus makes efficient use of P over the whole range of P supply.     

灵长类营养生态学的研究进展

营养生态学是现代生态学领域研究动物食物数量和质量、营养适应以及营养对种群特征作用规律的分支学科.目前从营养生态学研究灵长类食性需求主要分为五种假说,1)能量最大化假说;2)氮(蛋白质)最大化假说;3)植物次级代谢产物调节假说;4)膳食纤维调节假说;5)食物营养均衡假说.本文从研究方法和研究内容分别介绍了这些假说在灵长类...     

Changes in ecosystem functioning after replacement of forest by Lantana shrubland in Kumaun Himalaya

Abstract. Lantana camara shrubland is compared with the adjacent Quercus leucotrichophora and Pinus roxburghii forests to understand changes occurring in net primary productivity and nutrient cycling, as a consequence of degradation of these forests. The total net primary productivity of Lantana camara shrubland was 17 t ha^-1 yr^-1, which is similar to the values reported for forests: 16 - 21 t ha^-1 yr^-1. Total nutrient content (N, P) in the soil in the L. camara shrubland: 2932 kg ha^-1 N and 111 kg ha^-1 P, was lower than that of the forest soils.     

若干北方落叶树木叶片养分的内外迁移：Ⅰ.浓度和含量的变化

研究了北方 1 2个落叶树种单位面积叶干重、叶片灰分、有机物质和 7个元素的浓度和含量在落叶前后的变化 ,同一元素不同树种间及同一树种不同元素间有着不同的变化模式 .单位面积叶干重、叶片有机物质浓度和含量在落叶后均表现下降的趋势 ;所有树种叶片灰分浓度和大部分树种的灰分含量 (除刺槐、胡颓子、核桃楸外 )均有增加 ;落叶时 N、P、K的单位叶面积含量均可减少约 1 / 3～ 2 / 3;Mg含量的减少在胡颓子、核桃楸、春榆、蒙古栎、日本落叶松等 5个树种中发生 ,其余树种表现增加 ;落叶中 Fe含量除胡颓子下降外 ,其余均表现升高 ;落叶中 Ca、Si浓度和含量在所有分析树种中均表现增加趋势     

Nutrient resources for crop production in the tropics

For the foreseeable future a majority of the population, and almost all the mal- and under-nourished, will continue to be found in the tropics and subtropics. Food security in these parts of the world will have to be met largely from local resources. The productivity of the land is to a large extent determined by the fertlity of the soil, which in turn is mostly determined by its organic matter content and stored nutrients. Soil organic matter is readily lost when organic matter inputs are reduced upon cultivation and more so upon intensification. The concomitant loss of topsoil and possible exposure of subsoil acidity may cause further soil degradation.<br>Plant nutrients to replenish what is yearly taken from the soil to meet the demands for food and fibre amount to 230 million tonnes (Mt). Current fertilizer consumption stands at about 130 Mt of N, P₂O₅,and K₂O, supplemented by an estimated 90 Mt of N from biological nitrogen fixation worldwide. Although 80 per cent of the population lives in the developing world, only half the world''s fertilizer is consumed there. Yet, as much as 50% of the increase in agricultural productivity in the developing world is due to the adoption of fertilizers. World population growth will cause a doubling in these nutrients requirements for the developing world by 2020, which, in the likely case of inadequate production, will need to be met from soil reserves. Because expansion of the cultivable land area is reaching its limits, the reliance on nutrient inputs and their efficient use is bound to grow.<br>With current urban expansion, nutrients in harvested products are increasingly lost from the rural environment as a whole. Estimates of soil nutrient depletion rates for sub-Saharan Africa (SSA) are alarmingly high. The situation may be more favourable in Latin America and Asia where fertilizer inputs are tenfold those of SSA. Closing the nutrient cycle at a community level in rural areas may be tedious; on an inter-regional level it is associated with considerable costs of collection, detoxification and transportation to the farms. Yet, at the rate at which some of the non-renewable resources such as phosphorus and potassium are being exploited, recycling of these nutrients will soon be required. <br>