缺苞箭竹密度对养分元素贮量、积累与分配动态的影响

研究了缺苞箭竹(Fargesiadenudate)-紫果云杉(Piceapurpurea)原始林下不同密度缺苞箭竹群落的养分元素贮量与分配动态以及养分元素在一个生长季节内的积累量。结果表明:地上、地下部分的N、P、K、Ca、Mg贮量均随着箭竹密度的增加而增大,养分元素贮量排序为:K>N>Ca>P>Mg。密度较大的箭竹群落(D1和D2)中,地上部分的N、P和K贮量大于地下部分,而密度较小的箭竹群落(D3)中P和K贮存于地下部分的比例较大,3个群落中的地下部分Ca和Mg贮量均大于地上部分,且地下部分的养分元素贮量的比例随着箭竹密度的增加而减少。养分元素的总积累量排序为:K>N>Ca>P>Mg,且地上部分和群落的总积累量随着箭竹密度的增加而增加,总积累率以D1群落最大,3个群落的养分元素积累率大小顺序为:Mg>Ca>P>N>K。地下部分(根系和鞭)养分元素贮量比例随着箭竹密度的增加而下降,而地上部分(叶、枝和竹杆)养分元素贮量比例随着箭竹密度增加而上升。密度对缺苞箭竹养分贮量、积累和分配动态有深刻影响。     

密度对缺苞箭竹凋落物养分归还及养分利用效率的影响

在缺苞箭竹-紫果云杉原始林下,选取3个密度(D1、D2、D3)的缺苞箭竹,研究了密度对缺苞箭竹凋落物量、养分归还量及养分利用效率的影响.结果表明:3个密度缺苞箭竹的年凋落物量分别为793.2、1135.7和1458.5kg.hm-2,C归还量分别为370.7、516.2和671.5kg.hm-2,5种主要养分归还量分别为16.3、22.9和29.3kg.hm-2,均随密度的增大而增加.各密度养分年归还量中均以Ca最高(占总量的48%～58%),P和Mg最低(3%～5%),总体排序为Ca>N>K>Mg、P.除高密度(D3)缺苞箭竹在8月有一个凋落与养分归还小峰外,10月生长季末是各密度缺苞箭竹凋落及养分归还高峰期.不同密度缺苞箭竹叶N和K的再分配能力无显著差异,P的再分配能力随密度的增大而增强,Ca、Mg则显著积累.缺苞箭竹P的养分利用效率随密度的增大而增高,表明P可能是缺苞箭竹生长更新的限制因子.     

土壤养分库对缺苞箭竹叶片养分元素再分配的影响

研究了王朗自然保护区3个密度的缺苞箭竹群落的土壤养分库和叶片养分元素再分配能力的相互关系。结果表明,不同密度箭竹群落的土壤N、K贮量没有显著差异,土壤P贮量随着密度增加而显著减少（P〈0．01）,土壤Ca和Mg贮量则随着密度增加而增加。不同密度的箭竹叶片N和K的再分配能力没有显著差异,叶片P的再分配能力随着密度的增加而显著增加,Ca和Mg随着箭竹密度的增加在凋落叶中有显著积累的趋势。这表明,基于密度的箭竹叶片养分元素再分配能力与土壤养分库的大小密切相关,可能的机理过程是不同密度的箭竹在生长发育过程中改变了土壤养分库的大小,土壤养分库通过反馈机制导致箭竹叶片养分元素再分配能力的变化,体现了土壤与植被之间的互动关系。综合分析表明,P可能是限制缺苞箭竹生长发育的重要因子。     

缺苞箭竹密度对其生物量分配格局的影响

研究了一个生长季节内缺苞箭竹(Fargesiadenudata)紫果云杉(Piceapurpurea)原始林下不同密度缺苞箭竹群落的生物量及其分配格局.结果表明,缺苞箭竹群落生物量、净生产量、平均单株生物量、地上部分生物量、地下部分生物量随密度的增加而增大,而缺苞箭竹地上部分净增长率却随密度的增加而降低.在一个生长季节内,缺苞箭竹地上部分与地下部分生长相关性随密度的增加而增大.除指数生长期(7、8月)外,缺苞箭竹地上部分/地下部分生物量比在生长季节内随密度增加而增大,但在缺苞箭竹生长的指数生长期,中等密度有较大的地上部分/地下部分生物量比.缺苞箭竹生物量在各器官的分配取决于密度和生长时期,密度对缺苞箭竹的生物量分配格局有显著影响.     

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.     

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。     

森林土壤动物对凋落物早期分解及养分释放的影响

采用野外缩微实验方法,研究了会同林区常绿阔叶林和杉木人工林土壤动物对凋落物早期分解的影响。结果表明:孔径为2mm的网筒内试验土壤和凋落物中大型土壤动物的类群数和多度均明显少于孔径为4mm的网筒;排除大型土壤动物后,常绿阔叶林中凋落物C、K、Ca、Mg养分浓度显著增加,杉木林中凋落物Mg浓度显著增加,2个样地中的凋落物失重率以及凋落物C、P、Ca、Mg等养分元素的释放率均极显著降低(P0.01);大型土壤动物对不同元素释放率的影响不同,2个样地中对凋落物Ca、Mg元素释放率的影响均较大,杉木人工林中对N和K释放率的影响较小,常绿阔叶林中对P释放率的影响最小。     

雪被斑块对高山森林两种灌木凋落叶质量损失的影响

高山/亚高山森林灌木层植物凋落物的分解对于系统物质循环等过程具有重要意义, 并可能受到冬季不同厚度雪被斑块下冻融格局的影响。该文采用凋落物分解袋法, 研究了高山森林典型灌层植物华西箭竹(Fargesia nitida)和康定柳(Salix paraplesia)凋落物在沿林窗-林下形成的冬季雪被厚度梯度(厚型雪被斑块、较厚型雪被斑块、中型雪被斑块、薄型雪被斑块、无雪被斑块)上在第一年不同关键时期(冻结初期、冻结期、融化期、生长季节初期和生长季节后期)的质量损失特征。在整个冻融季节, 华西箭竹和康定柳凋落叶的平均质量损失分别占全年的(48.78 ± 2.35)%和(46.60 ± 5.02)%。冻融季节雪被覆盖斑块下凋落叶的失重率表现出厚型雪被斑块大于薄型雪被斑块的趋势,而生长季节无雪被斑块的失重率明显较高。尽管如此, 华西箭竹凋落物第一年分解表现出随冬季雪被厚度增加而增加的趋势, 但康定柳凋落物第一年失重率以薄型雪被斑块最高, 而无雪被斑块最低。同时, 相关分析表明冻融季节凋落叶的失重率与平均温度和负积温呈极显著正相关, 生长季节凋落叶的失重率与所调查的温度因子并无显著相关关系, 但全年凋落物失重率与平均温度和正/负积温均显著相关。这些结果清晰地表明, 未来冬季变暖情境下高山森林冬季雪被格局的改变将显著影响灌层植物凋落物分解, 影响趋势随着物种的差异具有明显差异。     

川西亚高山林线交错带植被凋落物量及养分归还动态

从2006—2008年,研究了川西亚高山林线交错带群落凋落物产量及N、P、K、Ca和Mg主要养分归还动态。结果表明:林线交错带植被凋落物年产量为389.83kg.hm-2.a-1,5种主要养分年归还量总量为15.82kg.hm-2.a-1,归还量排序为Ca>N>K>Mg>P。其中,叶、枝和其他混合杂物分别占凋落物总量的72.2%、17.9%和9.9%,占养分归还总量的87.4%、7.0%和5.6%。凋落物各组分及养分归还月动态均呈单峰曲线型变化,叶高峰期在9月,而枝、杂物则在10月。凋落物养分含量季节动态因不同凋落物组分和养分元素而异。叶凋落物中N、P、K和Mg含量在生长高峰的6、7月较高,而Ca含量较低;枝凋落物各元素含量总体上月变化不显著,其他混合杂物各元素含量6与10月相对较高,其余各月则无显著差异。     

川西亚高山箭竹群落枯枝落叶层生物化学特性

对川西亚高山3个不同箭竹群落枯枝落叶层现存量及生物化学特性作了初步研究,结果表明(1)枯枝落叶层贮量箭竹-冷云杉林(46.3×103kg/hm 2)＞箭竹-桦木-冷云杉林(25.8×103kg/hm2)＞箭竹-桦木林(6.5×103kg/hm2).(2)各林型枯枝落叶层营养元素贮量(kg/hm2)箭竹-冷云杉林为N 553.14,P 54.63,K 164.75,Ca 606.12,Mg 125.78,箭竹-桦木-冷云杉林为N269.45,P 23.61,K 96.31,Ca 367.04,Mg 79.08,箭竹-桦木林为N 68.69,P 7.73,K 27.64,Ca 21.66,Mg11.45;各元素贮量分布规律箭竹-冷云杉林和箭竹-桦木-冷云杉林为Ca＞N＞K＞Mg＞P,箭竹-桦木林则是N＞K＞Ca＞Mg＞P.(3)箭竹-冷云杉林和箭竹-桦木-冷云杉林枯枝落叶层有机质(如有机碳、粗蛋白、粗脂肪、粗纤维、无氮浸出物等)含量分布格局均为未分解凋落物层(L)＞半分解层(F)＞腐殖质层(H),有机质贮量分布格局为H层＞F层＞L层,箭竹-桦木林各亚层有机质含量及贮量均为L-F层＞H层;箭竹-桦木林、箭竹-桦木-冷云杉林和箭竹-冷云杉林枯枝落叶层有机质平均分解率分别为38.15%、23.54%、19.14%.(4)各林型枯枝落叶层微生物(细菌、真菌、放线菌)数量、酶(酸性磷酸酶、蛋白酶、蔗糖酶、过氧化氢酶和多酚氧化酶)活性箭竹-冷云杉林与箭竹-桦木-冷云杉林均为F层＞L层＞H层,箭竹-桦木林为H层＞L-F层.结果表明随着箭竹-桦木林向箭竹-桦木-冷云杉林及箭竹-冷云杉林恢复演替,林下枯枝落叶层微生物数量、酶活性逐渐降低,凋落物平均分解率降低,凋落物、有机质及营养元素逐渐积累,养分循环速率逐渐降低.     

Nutrient dynamics within amazonian forest ecosystems

Summary A comparative analysis on the rate of fine litterfall and its associated nutrient fluxes was carried out in a mixed forest on Tierra Firme, a tall Amazon Caatinga and a Bana on podsolized sands near San Carlos de Rio Negro. There was seasonality in leaf fall and total litterfall in mixed forest and tall Amazon Caatinga forest but no definite trend in the Bana. Litterfall curves were significantly correlated among sites indicating common regulating factors in the three forests. Leaf litter from mixed forest on Tierra Firme was richer in N with extremely low Ca and Mg concentrations; tall Amazon Caatinga litter had higher P and Mg concentration, while Bana litter was low in N but K concentration was twice as high as in the other two forests. Annual fine litterfall in Tierra Firme mixed forest was nearly 4 times higher than in Bana, But N flux was 10 times higher, while Ca and Mg fluxes were similar. Tall Amazon Caatinga had Ca and Mg fluxes in litterfall 2–3 times higher than the other two forests. Within-stand efficiency of nitrogen, calcium and magnesium use, as measured by biomass/nutrient ratios, differentiates Tierra Firme from Caatinga and Bana forest: Tierra Firme has the lowest N, but the highest Ca and Mg use efficiencies. Higher P use efficiency was measured in Bana followed by Tierra Firme and Caatinga; while Tierra Firme and Caatinga showed similar higher K use efficiencies than Bana. N/P ratios indicates that Tierra Firme forest is limited by P availability, while low N availability predominates in Caatinga. Bana appears limited by both N and P. These differences probably relate to variations in degree of sclerophylly and leaf duration which determine leaf nutrient concentrations in the ecosystems studied.     

Is primary production in holm oak forests nutrient limited?

Correlations between primary production and patterns of nutrient use and nutrient availability were investigated in 18 plots in closed holm oak (Quercus ilex L.) stands in the Montseny mountains (NE Spain), searching for evidence of nutrient limitation on primary production. The plots spanned a range of altitudes and slope aspects within a catchment. Nutrients considered were nitrogen (N), phosphorus (P), potassium (K) and magnesium (Mg) in plant samples, and the above plus calcium (Ca) and sodium (Na) in the soil. Primary production was found by summing the annual aboveground biomass increment to the annual litterfall. Across plots, primary production was correlated with the annual return of nutrients in litterfall, but this relationship probably arose from the common effects of the amount of litterfall on both primary production and nutrient return, and not from any nutrient limitation. Primary production was not significantly correlated with nutrient concentrations in mature leaves nor leaf litterfall, nor with absolute or relative foliar retranslocation of nutrients before leaf abscission, nor with the concentration and content (kg/ha) of total N, extractable P, and exchangeable K, Mg, Ca and Na in the upper mineral soil. We conclude that there is no correlational evidence that primary production is nutrient limited in this holm oak forest.     

Variable Responses of Lowland Tropical Forest Nutrient Status to Fertilization and Litter Manipulation

Predicting future impacts of anthropogenic change on tropical forests requires a clear understanding of nutrient constraints on productivity. We compared experimental fertilization and litter manipulation treatments in an old-growth lowland tropical forest to distinguish between the effects of inorganic nutrient amendments and changes in nutrient cycling via litterfall. We measured the changes in soil and litter nutrient pools, litterfall, and fine root biomass in plots fertilized with nitrogen (N), phosphorus (P), or potassium (K), and in litter addition and litter removal treatments during 7 years. Soil inorganic N and litter N increased in double-litter plots but not in N-fertilized plots. Conversely, litter P and soil pools of P and K increased in fertilized plots but not in the double-litter plots. Soil and litter pools of N and K decreased in the no-litter plots. Changes in litterfall with added nutrients or litter were only marginally significant, but fine root biomass decreased with both the litter and the K addition. Differences between the two experiments are mostly attributable to the coupled cycling of carbon and nutrients in litter. Increased nutrient inputs in litter may improve plant uptake of some nutrients compared to fertilization with similar amounts. The litter layer also appears to play a key role in nutrient retention. We discuss our findings in the context of possible impacts of anthropogenic change on tropical forests.     

Nutrient content and seasonal fluctuations in the leaf component of coark-oak (Quercus suber L.) litterfall

Nutrient content and seasonality of the leaf component in cork-oak litterfal were studied over a two year period in two cork-oak forest sites differing in biomass and edaphic condition in the north-eastern Iberian peninsula. Fallen senescent leaves compared to young leaves showed higher non-mobile nutrient concentrations and lower mobile nutrient concentrations, specially P, N, K, and Mg. At both sites, seasonal fluctuations affected both leaf production and leaf mineral content. The maximum leaf fall period correspond to the start of the vegetative growth and to the lowest N and P concentration in the falling leaves. The opposite was true for the winter, when litterfal was minimal and N and P content in falling leaves was at a maximum.The comparison between falling leaves and canopy leaves suggests that the analysis of fallen leaves can be a useful measure of N and P nutrition in cork-oak. We found site dependent differences in nutrient content and nutrient remobilization. In comparison with Q. ilex, although litter production was in the same range, nutrient retranslocation was greater for Q. suber.     

Litter production and forest floor nutrient dynamics in pine and hardwood stands of New Brunswick, Canada

Biomass and nutrient transfer (N, P, K, Ca, Mg) of overstory (branches and leaves) and understory litter fall were examined over a two year period in four jack pine stands aged 16, 29, 49 and 57 years and four mixed hardwood stands aged 7, 17, 20 and 29 years. Relative amounts of the five nutrients in litter fall for both series of stands were N > K ≷ Ca > P = Mg. Return of mineral elements to the forest floor was generally twice as high on the hardwood stands as for similarly aged pine stands. Overall return of nutrients plotted versus stand age generally exhibited a plateau relationship, with relatively little difference among stands; however, some exceptions occurred. Understory contribution to litter fall was very important on these stands, since in most cases the nutrient mass in understory litter was usually similar to or higher than that from the tree layer. Data on forest floor biomass, nutrient distribution and turnover rates of these stands were also presented; mobility of nutrients in the forest floor was in the order K > Mg ≥ P ≥ Ca ≥ N.     

Effect of typhoon disturbance on fine litterfall and related nutrient input in a subtropical forest on Okinawa Island, Japan

Typhoons are frequent on Okinawa Island, southwestern Japan. The effects of typhoon disturbance on the patterns of fine litterfall and related nutrient inputs in a subtropical evergreen broad-leaved forest were studied over 5 years from May 1996 to April 2001. Annual fine litterfall averaged 7558 kg ha⁻¹ (range from 6188 to 9439 kg ha⁻¹) for six sampling plots over 5 years, which differed significantly among years (p<0.001) but not among plots (p=0.122). A seasonal maximum was most evident for leaf litter component. Woody litter fell more irregularly through the year, and peak fall varied with typhoon and windstorm. The mean ratio of annual litterfall mass of sexual organs to leaves was 0.06, much lower than that in other tropical and subtropical rain forests. Nutrient concentrations varied in litterfall components, but were not significantly different among plots. The lowest concentrations of N and P in leaf litter were observed in March, which is also the month with the greatest leaf fall. However, the highest concentrations were recorded in typhoon season. Nitrogen and P concentrations were 34% and 106% greater in the green leaves that fell during typhoons than in senescent leaves. Mean nutrient inputs by litterfall were: N 83, P 3.2, K 25, Ca 71, Mg 19, Al 12, Na 10, Fe 0.86 and Mn 3.9 kg ha⁻¹ yr⁻¹, and differed significantly among years for all elements (p<0.0005) and among plots only for K (p<0.05) and Mn (p<0.0001). Typhoon disturbance strongly affected annual fine litterfall and related nutrient inputs, which contributed an average of 30% of the annual litterfall mass, and from 30% to 39% (for different nutrient elements) of annual total nutrient inputs. The results from this study suggest that typhoon-driven maintenance of rapid cycling of P and N and their high availability in soil appears to be an important mechanism to maintain productivity in the subtropical forest on Okinawa Island.     

鼎湖山森林凋落物量及营养元素含量研究

 本文研究了鼎湖山南亚热带常绿阔叶林和针叶林的凋落物量及凋落物中主要营养元素(N、P、K、Ca、Mg)的含量。8年的测定结果表明,两个森林类型的年均凋落物量(t·ha-1)及凋落物中主要营养元素的含量(t·ha-1·yr-1)分别为：常绿阔叶林9.056,0.220;针叶林2.695,0.032。凋落物中叶、枝和花果的百分组成及凋落特征各异。鼎湖山南亚热带常绿阔叶林的年均凋落物量低于热带雨林而高于暖温带落叶阔叶林,说明不同气候带的森林类型,其凋落物量是有差异的。与针叶林相比较,常绿阔叶林的凋落物量较大,凋落物中主要营养元素的含量较高,凋落物的分解速率也较快,因此从提高森林的质量和增强森林的生态效益来考虑,在造林绿化上应提倡多营造常绿阔叶林或针阔叶混交林。     

贡嘎山峨眉冷杉林凋落物的特征

 研究了贡嘎山峨眉冷杉（Abies fabri）林凋落物量、凋落物特征及其N、P、K、有机碳的归还量,并探讨了它们在演替进程中的变化。结果表明,峨眉冷杉成熟林、中龄林和幼龄林的凋落物量依次为：2 809.925、2 787.086、2 043.585 kg·hm-2·a-1;其中N、P、K的归还量依次为：34.850、33.917、42.571 kg·hm-2· a-1。峨眉冷杉林凋落物量及其N、P、K的归还量较少,与我国其它森林区针叶林存在一定差异,而与美国西北部冷杉林相近。