福建柏和杉木人工林营养元素积累与分配

对福建三明33a生福建柏和杉木人工林群落营养元素积累和分配进行了研究,结果表明:福建柏和杉木人工林群落乔木层生物量分别为228.8thm-2和235.1thm-2,N、P、K、Ca和Mg等5种元素总积累量分别为1283kghm-2和1060kghm-2,乔木层和群落5种元素积累量的大小顺序均为:K>N>Ca>Mg>P,5种元素总积累量在乔木层各器官的分配量顺序分别为:干材>枝>根>干皮>叶>枯枝、干材>根>干皮>叶>枝>枯枝。福建柏的营养利用效率低于杉木。虽然两种人工林生态系统94%以上的营养元素储存在土壤中,但是土壤中植物容易利用的有效营养元素储量较低,其中有效P在土壤中的储量低于植物中的储量。福建柏和杉木人工林33 a生时乔木层5种营养元素总和的当年存留量分别为30.75kghm-2和16.53kghm-2。     

安徽马尾松人工林营养元素分配格局的研究

本文系统地研究了马尾松人工林营养元素的分配格局。结果表明马尾松不同器官营养元素含量是叶>枝皮>干皮>枝木>干木;同化器官——针叶中营养元素含量规律为N>K>Ca>Mg>P,非同化器官为Ca>N>K>Mg>P;不同器官营养元素的贮量为干木>干皮>叶>枝木>枝皮,同化器官对不同营养元素的贮量呈N>K>Ca>Mg>P,非同化器官为Ca>N>K>Mg>P;不同立地条件下,马尾松林生产1t干物质所贮存的营养元素不同,立地条件愈好,营养元素效率愈高,贮存愈少;母岩、土层厚度和养分总量是影响马尾松林地上各器官,特别是针叶营养元素含量的重要因子,土壤N、P含量越高,马尾松人工林生物量越大。     

秋茄落叶分解中营养元素释放的季节动态

研究了福建九龙江口林地红树植物秋茄落叶分解过程中K、Ca、Mg和P营养元素释放速率的季节动态。结果表明,腐解中叶片元素组成因不同营养元素损失率而变化较大。元素的损失总是快于干重损失,且损失速率为K>Mg>Ca和K>P。冬季P的损失快于Mg和Ca(P>Mg>Ca),夏季则相反(Mg>Ca>P),其余两季节差别不大。4个季节分解56天后,K、Ca、Mg、P分别损失达初始量的72—97％,51—88％,60—90％和64—79％。     

不同年龄阶段马尾松人工林养分循环的研究

 对马尾松(Pinus massoniana)人工林内N、P、K、Ca、Mg 5种养分元素的含量、积累、分配和生物循环以及它们随林分年龄的变化趋势进行了研究。结果表明：针叶的养分含量最高,树干材的养分含量最低,凋落物的养分含量与树枝或树皮的养分含量接近,土壤中K、Mg元素丰富,N、P、Ca 3种元素亏缺。树叶、树枝、树皮和树根中各元素含量大小顺序为K>N>Ca>Mg>P,树干材中则是Ca>K>N>Mg>P,5种元素含量随马尾松林分年龄的增加呈逐渐减少的趋势。5种元素贮存总量为460.19～1950.32 k     

湘西南喀斯特地区灌丛生态系统植物和土壤养分特征

以湖南省邵阳县轻度、中度(弃耕地)和重度石漠化的灌丛生态系统为研究对象,采集3种不同石漠化程度的灌丛植物样品以及0～15、15～30、30～45 cm 3个土层土壤,研究土壤、植被养分的分配格局及相互关系.结果表明:土壤有机碳、全N含量在不同土层中差异显著,且其含量均随土层深度增加而减少,而全P、全K、全Ca、全Mg含量在各土层间无显著差异;3种石漠化程度灌丛土壤全N、全P、全Ca、全Mg含量差异显著,且中度石漠化样地土壤有机碳、全N和全P含量相对较高.轻度和重度石漠化土壤各元素含量排序均为有机碳>全K>全Ca>全Mg>全N>全P,而中度石漠化样地土壤各元素含量排序为有机碳>全K>全Ca>全N>全Mg>全P;3种石漠化程度植物各养分含量由高到低依次为Ca>N>K>Mg>P,且植物N、P含量和土壤全N、全P含量均呈显著正相关.土壤养分状况与植物生长密切相关,根据不同石漠化程度土壤养分状况,应该采用封山育林与人工造林相结合以及针对性施肥的方法来治理石漠化.     

北京人工刺槐林化学元素含量特征

 31年生人工刺槐(Robinia pseudoacacia)林内各种植物的化学元素含量以C素最高,尤以刺槐树干中C含量多。N和Ca在刺槐叶片中含量大。丛生隐子草(Cleistogenes caespitosa)地上部分含K量高于林内其他植物。Fe在荆条(Vitex negundo var．heterophylla)叶片中含量较多。Al和Na在植物细根中含量为大。酸枣(Zizyphus jujuba var．spinosa) 叶中含有较高的Mg和Mn。 刺槐林的乔木、灌木、草本层化学元素积累量以C>Ca>N> K>Mg>P>Fe>Al>Na>Mn>Cu>Zn为序。灌木层化学元素积累量除C和Ca以外,均高于乔木层。对比地表枯枝落叶层化学元素总量与人工林元素的积累量,以Na的比值最高,Ca、Mn、Fe、Zn比值次之,元素归还量都较大。P比值较低,归还量较少。刺槐林土壤化学元素贮存量是以Ca>N>Mg>Fe>K>P>Na>Mn>Al>Zn>Cu为序。植物对土壤中化学元素的富集系数以K、Al和P较高。人工林元素积累量与土壤元素贮存量之比,亦以K、P、Al比值较高。可见土壤中的K、P和Al相对是不足的。     

缺苞箭竹群落密度对土壤养分库的影响

研究了王朗自然保护区内缺苞箭竹(Fargesiadenudata)群落3个密度在1个生长季(5～10月)内不同土壤层次的养分贮量及其季节动态.结果表明,土壤(0～30cm)总P、速效P贮量均随密度的增加而显著减少(P<0.01);而土壤总Ca、Mg贮量则随密度的增加而增加;土壤N、K(全量或速效)贮量密度间差异不大.在不同密度的箭竹群落样地内,除了D1样地土壤总钾贮量大于Ca外,土壤层(0～30cm)不同养分贮量(全量)大小顺序均为Ca>K>Mg>N>P.表层(L1)速效N、P和K浓度在7月份均有显著降低的现象,随后又逐渐回升.养分的变化幅度则普遍存在着表层(L1)大于下层(L2、L3),高密度(D3)大于低密度(D1),速效P大于速效N、K的现象.土壤总养分贮量与浓度在土壤层次上的分布特征明显不同,3个密度样地中L1(0～10cm)层的N、P、K、Ca、Mg贮量均低于L2(10～20cm)和L3(20～30cm)层.分析表明,箭竹群落土壤层养分贮量与密度密切相关,可能是由于密度影响到了箭竹对土壤养分的吸收、凋落物养分的归还、微生物活性等养分循环各个环节,从而导致了土壤养分贮量的改变.其中,密度对P、Ca贮量影响最大,Mg其次,对N、K影响最弱.随着箭竹密度的增加,越来越低的土壤总P、速效P贮量也表明,P素可能是箭竹生长发育的主要限制因子,P不足可能是导致箭竹开花的重要诱因.     

密云水库水源保护区板栗林主要养分元素生物循环研究

对密云水库北京集水区板栗林主要养分元素循环进行了研究。结果表明,22年生板栗林的生物量为38638kg·hm^-2;板栗林5种主要养分元素N、P、K、Ca、Mg贮存量为315．38kg·hm^-2,各器官中5种元素贮存量大小排序是干>枝>根>叶>花>果苞>果。板栗林生态系统乔木层每年从土壤中吸收的5种养分元素量为79．17kg·hm^-2,吸收量占0～30cm土层5种养分元素总量的0．15％,占0～30cm土层中5种元素有效养分量的1．95％。年吸收量中存留量为11．25kg·hm^-2,枯落物归还量为58．08kg·hm^-2。雨水及雨水淋溶输入到板栗林生态系统的养分元素量为38．63kg·hm^-2,果实输出量为9．84kg·hm^-2。雨水和雨水淋溶量与枯落物归还量之和大于吸收量,表明研究期间板栗林生态系统养分元素的收入略大于支出,5种元素的吸收系数排序为N>P>K>Ca>Mg,利用系数排序为K>N>Mg>P>Ca。循环系数排序为K>N>P>Mg>Ca。周转期排序是Ca>P>Mg>N>K。     

北京人工侧柏林的化学元素含量特征

31年生人工侧柏（Platycladus orientalis)林内,侧柏各器官中以有机C含量最高,Ga的浓度亦大,其次为N,K,Mg,P的浓度较低,Fe的浓度相对较高,除C和Al外,大部分元素在侧柏叶中含量较多,各种灌木叶的元素浓度均高于茎,还明显地高于侧柏叶,侧柏乔木层元素积累量是以地上部分高于地下部分,51％的C被积累在树干内,其他元素在叶部最高。灌木层元素积累量除N以外,均以地下部分高于地上部分,人工林C的积累量为17000kg/ha,Ca为400kg/ha,N为104kg/ha,K为87kg/ha,Mg为30kg/ha,Al,P,Fe为11－16kg/ha,Na为2．5Ka/ha,Mn,Cu,Zn小于1kg/ha, 乔木和灌木层化学元素存留量以C最高,在乔木层Ca的存留量次之,N,K,更次之,灌木层N的存留量高于Cat K,侧柏林的元素存留量C约2700kg/ha.a,Ca 为70kg/ha.a,N和K为15－20kg/ha.a,P,F,A,M 2－5g/ha.a,其他元素存留量不到1kg/ha.a,土壤中化学元素贮存量是C＞Ca>N>Fe>Mg>K>P>Na>Al,Mn>Cu>Zn。在相同土壤条件下,各种植物对土壤元素的富集系数不同,各种灌木的元素富集系数均高于侧柏,侧柏林元素积累量,存留量与土壤元素贮存量之间具极显著相关,它们的相关系数分别为R＝0．9723（P＜0．001,n=11)和R＝0．9765(P<0.001,n=11),侧柏林对元素的需要量是C＞Ca>N>K>Mg>Fe>P>Al>Na>Mn>Cu>Zn。     

无牧草原生态系统营养元素的生物地球化学特征

以内蒙古锡林河流域的两种优势草原群落羊草草原和大针茅草原为研究对象,探讨了中纬度地区未放牧情况下的草原生态系统植物营养元素的生物地球化学特征．结果表明,两类草原群落土壤-植物系统中土壤分室N、P、K、S、Ca、Mg、Si的贮量远大于植物亚系统的贮量,地上活体和枯草分室的各元素贮量小于根分室．在两类草原群落中,N、P、K、S从枯草分室中消失的速率要大于Ca、Mg和Si．羊草草原的枯草分室元素流失量大于大针茅草原．研究区草原生态系统中,羊革草原物质的生物地球化学循环近于平衡状态,大针茅草原处于失衡状态．物质循环量羊草草原远大于大针茅草原．     

鼎湖山马尾松林营养元素的分布和生物循环特征

较系统地研究了鼎湖山马尾松林营养元素的分布和生物循环情况。马尾松林内各组分营养元素浓度总的规律为：针叶－细根－林下层植物－凋落物－树皮－树干;在树皮,树干和凋落物组分中各营养元素的排序为：Ｎ－Ｃａ－Ｋ－Ｍｇ－Ｐ,其它组分中则为：Ｎ－Ｋ－Ｃａ－Ｐ－Ｍｇ。马尾松林各营养元素的总贮量（ｋｇ／ｈｍ＾２）为：２２７８．５１（Ｎ＊）,２８０．０１（Ｐ）,５６７．９０（Ｋ）,４５６．８４（Ｃａ）,１４４．７６（     

喀斯特峰丛洼地不同类型森林养分循环特征

以中国西南喀斯特峰丛洼地为研究区域用标准木法和收获法对人工林、次生林、原生林3个不同类型森林的6个代表性群落的生物量、营养元素生物循环量及循环特征进行了研究。结果表明:(1)不同类型森林群落乔木各器官的养分含量大小顺序为:叶枝根干,林下植被层和凋落物层的养分含量比较高,其含量普遍高于乔木层各组分,仅次于乔木叶片;各组分中营养元素以K、Ca最高,P、Mg最低;(2)3种类型森林间乔木层的养分积累量总规律表现为原生林(4540.30 kg/hm~2)次生林(2107.09 kg/hm~2)人工林(719.51 kg/hm~2),分别占林分养分积累量的88.30%、79.57%和62.60%;(3)3种类型森林生态系统养分总贮量相差不大,均主要集中在土壤层在各层分配格局有所差异;营养元素的年吸收量和年归还量均为次生林原生林人工林,年吸收量分别为:418.80、271.17和148.79 kg hm~(-2)a~(-1);年归还量分别为:182.98、111.43和43.37 kg hm_(-2)a~(-1);(4)不同类型森林养分利用系数总规律为人工林(0.35)次生林(0.20)原生林(0.10);循环系数则相反,为原生林(0.48)次生林(0.46)人工林(0.30);而周转时间为原生林(37.32)人工林(18.63)次生林(13.93)。喀斯特峰丛洼地土层薄,养分贮存能力差,森林养分循环能力相对较弱,沿着强、中、弱干扰递减梯度,3种类型森林养分利用效率和循环能力呈增长趋势。     

Leaf nutrient dynamics and nutrient resorption: a comparison between larch plantations and adjacent secondary forests in Northeast China

Aims Conversion of secondary forests to pure larch plantations is a common management practice driven by the increasing demand for timber production in Northeast China, resulting in a reduction in soil nutrient availability after a certain number of years following conversion. Nutrient resorption prior to leaf senescence was related to soil fertility, an important nutrient conservation strategy for plants, being especially significant in nutrient-poor habitats. However, the seasonal dynamics of leaf nutrients and nutrient resorption in response to secondary forest conversion to larch plantations is not well understood.Methods A comparative experiment between larch plantations (Larix spp.) and adjacent secondary forests (dominant tree species including Quercus mongolica, Acer mono, Juglans mandshurica and Fraxinus rhynchophylla) was conducted. We examined the variations in leaf nutrient (macronutrients: N, P, K, Ca and Mg; micronutrients: Cu and Zn) concentrations of these tree species during the growing season from May to October in 2013. Nutrient resorption efficiency and proficiency were compared between Larix spp. and the broadleaved species in the secondary forests.Important findings Results show that the seasonal variation of nutrient concentrations in leaves generally exhibited two trends, one was a downward trend for N, P, K, Cu and Zn, and another was an upward trend for Ca and Mg. The variations in foliar nutrient concentrations were mainly controlled by the developmental stage of leaves rather than by tree species. Resorption of the observed seven elements varied among the five tree species during leaf senescence. Nutrient resorption efficiency varied 6–75% of N, P, K, Mg, Cu and Zn, while Ca was not retranslocated in the senescing leaves of all species, and Mg was not retranslocated in Larix spp. Generally, Larix spp. tended to be more efficient and proficient (higher than 6–30% and 2–271% of nutrient resorption efficiency and resorption proficiency, respectively) in resorbing nutrients than the broadleaved species in the secondary forests, indicating that larch plantations had higher leaf nutrient resorption and thus nutrient use efficiency. Compared with Larix spp., more nutrients would remain in the leaf litter of the secondary forests, indicating an advantage of secondary forests in sustaining soil fertility. In contrast, the larch plantation would reuse internal nutrients rather than lose nutrients with litter fall and thus produce a positive feedback to soil nutrient availability. In summary, our results suggest that conversion from secondary forests to pure larch plantations would alter nutrient cycling through a plant-mediated pathway.     

辽东山区落叶松人工林地上生物量和养分元素分配格局

落叶松是我国北方最主要的人工用材林树种,由于人工林树种单一、结构简单等原因,导致土壤养分循环出现失衡.研究落叶松生物量和养分元素分配规律,可以为落叶松人工林的合理经营和养分循环研究提供科学参考.本文以辽东山区19年生二代落叶松人工林(胸径12.8 cm,树高15.3 m,密度2308株·hm^-2)为对象,研究其地上各器官(干、枝、皮、叶)生物量、碳和养分元素含量(N、P、K、Ca、Mg、Fe、Mn、Cu、Zn)的积累规律和分配格局.结果表明：单株落叶松生物量为70.26 kg,林分水平落叶松生物量为162.16 t·hm^-2,各器官生物量差异显著,排序为：树干>树枝>树皮>树叶;单株落叶松养分积累量为749.94 g,林分水平落叶松养分积累量为1730.86 kg·hm^-2,其中,大量元素和微量元素的养分积累量均为树干显著高于树枝、树皮和树叶.全叶期每砍伐一棵落叶松(19年生),平均从系统中带出749.94 g养分元素;如果将树皮、树枝、树叶留在林地仅仅带走树干,带出的养分元素可减少40.7%.
     

Changes in nutrient cycling with age in a Cunninghamia lanceolata plantation forest北大核心CSCD

Aims The purpose of this study is to investigate the characteristics of nutrient cycling in Cunninghamia lanceolata plantations with different ages, and to provide scientific basis for the management of high-yield plantations in China. Methods In this study, we used the ecological data of the past 25 years in Hunan Huitong Ecological Station and analyzed the nutrient cycling characteristics of the C. lanceolata plantation forests with different ages according to the law of tree growth and the dynamics of nutrient uptake. Important findings For most nutrients, their concentrations ranked in order as leaf > twig > bark > root > stem for all C. lanceolata trees with any ages. When the tree age was less than 12 years, nutrient concentrations increased with age, while they decreased with age when the tree was more than 12 years old. The changes in average annual nutrient uptake with age showed two peaks. Nutrient return gradually increases with age. For the same age, the nutrient use efficiency followed the order of phosphorus (P) > potassium (K) > nitrogen (N) > magnesium (Mg) > calcium (Ca). After the stand was closed, the nutrient utilization efficiency increases with the growth and development of trees. The cycling intensity of Ca and Mg was greater than that of N and P at the same stand age. The changes in nutrient cycling intensity with age varying curve with stand age acted as parabolic curve. Utilization of N, P and K was longer than displayed a parabolic shape for all elements. The utilization time of each element got shorter with increasing stand age. These results suggested that the nutrient uptake in different growth stages was not only controlled by the quantity of biomass, but also affected by the difference in nutrient concentration between previous and current stages. The nutrient cycling processes were jointly controlled by the mechanisms of nutrient redistribution and storage in Cunninghamia lanceolata, during the growth and development stages, and the nutrient use efficiency during different growth stages. © 2018 Editorial Office of Chinese Journal of Plant Ecology. All rights reserved.     

鼎湖山南亚热带常绿阔叶林植物营养元素含量分配格局研究

在鼎湖山南亚热带常绿阔叶林中,植物叶片营养元素含量为Ｎ ０．９４６％－２．５３５％,Ｐ ０．０３０－０．１２７％,Ｋ ０．６１４％－１．８３３％,Ｃａ ０．４４２％－１．９９５％,Ｍｇ ０．０２４％－０．１８８％。叶片各营养养元素间相关性较差,仅Ｐ与Ｍｇ及Ｍｇ与Ｋ之间存在显著的线性相关。叶片Ｎ元素平均含量在各层中的序列为：乔木Ⅲ〉乔木Ⅱ〉乔木Ⅰ〉灌木〉藤本〉草本;其它营养元素浓度随层次分配的规律性     

Atmospheric deposition of nutrients in a coastal maquis ecosystem of northeastern Greece

The deposition of nutrients N, P, Ca, Mg, Na and K from the atmosphere on a coastal maquis ecosystem was studied over a 12-month period (1981–1982). The annual precipitation during that period was 1065 mm. Nutrient input was estimated as 5.72, 0.24, 30.31, 3.40, 23.99 and 1616 kg ha^–1 year^–1 for N, P, Ca, Mg, Na and K, respectively. Chemical analysis of throughfall showed enrichment for all the nutrients studied. It was concluded that nutrient input from bulk precipitation is an important contribution to nutrient cycling of the Greek maquis ecosystem.     

Concentrations and resorption patterns of 13 nutrients in different plant functional types in the karst region of south-western China

Background and Aims

Elucidating the stoichiometry and resorption patterns of multiple nutrients is an essential requirement for a holistic understanding of plant nutrition and biogeochemical cycling. However, most studies have focused on nitrogen (N) and phosphorus (P), and largely ignored other nutrients. The current study aimed to determine relationships between resorption patterns and leaf nutrient status for 13 nutrient elements in a karst vegetation region.

Methods

Plant and soil samples were collected from four vegetation types in the karst region of south-western China and divided into eight plant functional types. Samples of newly expanded and recently senesced leaves were analysed to determine concentrations of boron (B), calcium (Ca), copper (Cu), iron (Fe), potassium (K), magnesium (Mg), manganese (Mn), molybdenum (Mo), N, sodium (Na), P, sulphur (S) and zinc (Zn).

Key Results

Nutrient concentrations of the karst plants were lower than those normally found in other regions of China and the rest of the world, and plant growth was mainly limited by P. Overall, four nutrients revealed resorption [N (resorption efficiency 34·6 %), P (48·4 %), K (63·2 %) and Mg (13·2 %)], seven nutrients [B (–16·1 %), Ca (–44·0 %), Cu (–14·5 %), Fe (–205·5 %), Mn (–72·5 %), Mo (–35·6 %) and Zn (–184·3 %)] showed accumulation in senesced leaves and two nutrients (Na and S) showed no resorption or accumulation. Resorption efficiencies of K and Mg and accumulation of B, Ca, Fe and Mn differed among plant functional types, and this strongly affected litter quality. Resorption efficiencies of N, P and K and accumulation of Ca and Zn increased with decreasing concentrations of these nutrients in green leaves. The N:P, N:K and N:Mg ratios in green leaves predicted resorption proficiency for N, K and Mg, respectively.

Conclusions

The results emphasize the fact that nutrient resorption patterns strongly depend on element and plant functional type, which provides new insights into plant nutrient use strategies and nutrient cycling in karst ecosystems.     

Nutrient cycling in Pinus sylvestris stands in eastern Finland

Nutrient cycling within three Pinus sylvestris stands was studied in eastern Finland. The aim of the study was to determine annual fluxes and distribution of N, P, K, Ca, Mg, Zn, Fe, B, and Al in the research stands. Special emphasis was put on determining the importance of different fluxes, especially the internal cycle within the trees in satisfying the tree nutrient requirements for biomass production. The following nutrient fluxes were included, input; free precipitation and throughfall, output; percolation through soil profile, biological cycle; nutrient uptake from soil, retranslocation within trees, return to soil in litterfall, release by litter decomposition. The distribution of nutrients was determined in above- and belowground tree compartments, in ground and field vegetation, and in soil.The nitrogen use efficiencies were 181, 211 and 191 g of tree aboveground dry matter produced per g of N supplied by uptake and retranslocation in the sapling, pole stage and mature stands, respectively. Field vegetation was more efficient in nitrogen use than trees. Stand belowground/aboveground and fine root/coarse root biomass ratios decreased with tree age. With only slightly higher fine root biomass, almost three times more nitrogen had to be taken-up from soil for biomass production in the mature stand than in the sapling stand.The annual input-output balances of most nutrients were positive; throughfall contained more nutrients than was lost in mineral soil leachate. The sulphate flux contributed to the leaching of cations, especially magnesium, from soil in the mature stand.Retranslocation supplied 17–42% of the annual N, P and K requirements for tree aboveground biomass production. Precipitation and throughfall were important in transferring K and Mg, and also N in the sapling stand. Litterfall was an important pathway for N, Ca, Mg and micro nutrients, especially in the oldest stands.     

亚热带杉木纯林生态系统中营养元素的积累、分配和循环的研究

本文是1980--1983年本所湖南会同森林生态实验站成年杉木纯林中进行定位研究根据所取得的观测资料,分析和论述了营养元素在林内的积累与分配;以及从降雨中的输入量,计算了营养元素的年吸收量和归还量。研究表明,杉木纯林在21--23年生时,即达到主伐年龄期,营养元素年吸收量仍大于归还量,整个林分还处在养分消耗阶段。