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.     

北京百花山附近杂灌丛的化学元素含量特征

 绒毛绣线菊、荆条和蚂蚱腿子是百花山地区杂灌丛中的3种共优势植物。通过对植物(叶、主枝、侧枝、主根、侧根5个部位)和土壤中10种元素(N、K、Ca、Mg、Mn、Cu、Zn、Fe、Al和Na)的测定,发现在不同植物、同种植物的不同器官里,各种元素的含量有着显著的差异,而且还存在着季节性的变化。10种元素在群落里的积累量以Ca为最高,其次是N。在灌木层里的顺序为Ca>N>K>Mg>Fe>Al,在草本层里则为Ca>N>Al>Fe>K>Mg,而在枯枝落叶层里又为Ca>N>Al>Fe>Mg>K。土壤中营养元素的贮藏也以Ca为最高,其次是N,其它8种元素的顺序为Na>Mg>K>Ma>Al>Fe>Zn>Cu。植物富集系数以K、Fe和Al较高,最低是Na。Na是唯一在土壤中的含量大于植物中的一种元素。     

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。     

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。     

杨桃初结果树果实发育期间养分含量变化(简报)

软枝杨桃初结果树果实中各种养分含量随着果实生长呈逐渐降低趋势,其中Ca含量下降幅度最大。整个果实发育期中,N含量最稳定,K含量保持最高,Ca含量最低,Mg与P含量相近,其含量高低大体为:K>N>P>Mg>Ca。果实中各种养分总量随着果实发育成熟而逐渐增加,其中N和K增加幅度最大。     

鼎湖山黄果厚壳桂、鼎湖钓樟群落主要营养元素的分配和生物循环

较系统地研究了鼎湖山黄果厚壳桂(Cryptocaryaconcinna)-鼎湖钓樟(Linderachunii)群落植物主要营养元素(P、K、Ca、Mg)的分配和生物循环特征。营养元素含量随群落层次、组分(器官)和元素不同而异。群落植物营养元素贮量为(kghm-2):P61.253,K928.764,Ca1212.771和Mg79.349。各元素贮量在不同层次中的大小分布序列为:乔木(94.3%-97.8%)>藤本(1.3%-4.1%)>灌木(0.8%-1.4%)>草本(0.05%-0.15%)。在乔木层,元素贮量则主要分布在树干和树枝两组分(38.6%-61.7%)。各元素在植物组分中的贮量序列为:Ca>K>Mg>P(根、干和皮)和K>Ca>Mg>P(其余器官)。群落植物营养元素年积累量为(kghm-2):P2.677,K41.550,Ca63.309和Mg3.693,其在群落植物中的分配格局与贮量的相类似。群落植物营养元素利用系数为:P0.18,K0.11,Ca0.09和Mg0.28;循环系数:P0.76,K0.61,Ca0.41和Mg0.84;周转期(a):P7.36,K15.12,Ca28.05和Mg4.30。     

文冠果叶片养分元素含量的动态变化及再吸收特性

以文冠果叶片为试材,运用原子吸收光谱法分析了叶片养分元素含量的季节动态变化和再吸收效率。结果表明：N、P、K均呈下降趋势,是“稀释效应”和养分再吸收导致;Mg呈“单峰”曲线走势,与Mg的生理功能有关;Fe、Mn呈“V”字型走势,Cu呈“W”型,Zn呈“N”型,与树体吸收特性和不同的物候期有关。总体来看,养分元素含量顺序是：N>P>K>Mg>Fe>Zn>Mn>Cu,且不同时期又有所不同。大量元素之间存在显著的相关关系;微量元素间相关关系不显著（Fe、Zn除外）,Fe与N显著负相关,与拮抗作用有关。C/N呈升高趋势,差异显著;N/P呈降低趋势,差别不大。养分再吸收效率由大到小的顺序是：Mg>N>K>P,差异显著。微量元素由于移动性较差,不能被再吸收。N、P、K、Mg养分再吸收效率反映了文冠果较高的养分保存能力和养分利用效率。     

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。     

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％。     

第2代杉木幼林生态系统水化学特征

对第 2代杉木幼林生态系统的降雨、穿透水、茎流、地表和地下径流等水文过程中 N、P、K、Ca、Mg、Cu、Fe、Zn和 Mn9种养分元素含量进行了连续 5 a的测定 ,结果表明 :降雨通过林冠后其化学特性发生明显变化 ,p H值出现酸化现象 ,穿透水中 Zn和 Org-N为负淋溶 ,其余各元素浓度有所增加。树干茎流的富集作用比穿透水强 ,其中 Zn为负 ,其它元素的浓度均比林外降雨的高。地表径流中 Zn>Org-N>NO3 -N,与降雨中含量相比较为淋失迁移型 ,Ca>K>Cu>Mg>P>NH4 -N>Mn>Fe为内贮型 ,p H值增大。地下径流中 Zn>Org-N>NH4 -N>K>Mn为淋失迁移型、Ca>Mg>Cu>NO3 -N>P>Fe为内贮型。该系统的水循环中 Ca>Mg>Fe>P为净损失、Zn>K>Org-N>NH4 -N>Mn>NO3 -N>Cu为净积累 ,与第 1代杉木林相比 ,第 2代杉木幼林水化学过滤与吸贮功能较差 ,系统稳定性也较弱 ,生态功能的恢复需要一定的时间     

杉木人工林生态系统水文学过程的养分特性

根据5a定位观测的数据,对湖南会同24～28a生的杉木人工林生态系统各水文学过程中的养分特性进行了研究。结果表明：林冠降水是杉木人工林生态系统养分输入的重要来源,其中Ca的养分含量最高,P的含量最低。林内穿透水各养分元素的含量明显高于林冠降水中养分的含量。除Ca外,树干茎流中其它养分元素的含量为林冠降水的6倍以上。可见,林内穿透水和树干茎流是杉木林生态系统内养分循环的重要组成部分,有利于提高系统的养分利用率。地表径流中除硝态氮外,各元素的含量与穿透水的含量接近,其中P、Na和K三种元素的含量较低,但未超过林冠降水中养分元素含量。地下径流中N和K的含量较低,而Ca的含量与林冠降水相比没有差异。因而地表径流和地下径流不可避免的造成生态系统的养分损失,但24～28a生杉木林生态系统的调控能力较强,地表径流和地下径流量较小,生态系统的养分损失也相对较小,养分为净积累。不同季节之间水文学过程中养分元素含量存在一定程度的差异。降水形态、雷电和地形等要素影响养分元素含量。硝态氮在冰雹中未检出,而在雨水中的含量是雪水的2倍。铵态氮、K和Mg等元素在雨水中的含量最高。P和Ca以雪水的含量最高,与雨水和冰雹相比不存在数量级差异。雷电明显增加降水中养分的含量,特别是林冠上层的低空放电使降水中N的含量增加3～5倍。由于山谷和山麓的立地条件较好,其穿透水中养分含量比山坡的高,山谷与山麓的大致相等。在采集水样进行养分分析时,应考虑降水时间、降水形态和地形等因子的影响。     

Bryozoan populations reflect nutrient enrichment and productivity gradients in rivers

1. The hypothesis that nutrient enrichment will affect bryozoan abundance was tested using two complementary investigations; a field‐based method determining bryozoan abundance in 20 rivers of different nutrient concentrations by deploying statoblast (dormant propagule) traps and an experimental laboratory microcosm study measuring bryozoan growth and mortality. These two methods confirmed independently that increased nutrient concentrations in water promote increases in the biomass of freshwater bryozoans. 2. Statoblasts of the genus Plumatella were recorded in all rivers, regardless of nutrient concentrations, demonstrating that freshwater bryozoans are widespread. Concentrations of Plumatella statoblasts were high in rivers with high nutrient concentrations relative to those with low to moderate nutrient concentrations. Regression analyses indicated that phosphorus concentrations, in particular, significantly influenced statoblast concentrations. 3. Concentrations of Lophopus crystallinus statoblasts were also higher in sites characterised by high nutrient concentrations. Logistic regression analysis revealed that the presence of L. crystallinus statoblasts was significantly associated with decreasing altitude and increasing phosphorus concentrations. This apparently rare species was found in nine rivers (out of 20), seven of which were new sites for L. crystallinus. 4. Growth rates of Fredericella sultana in laboratory microcosms increased with increasing nutrient concentration and high mortality rates were associated with low nutrient concentrations. 5. Our results indicate that bryozoans respond to increasing nutrient concentrations by increased growth, resulting in higher biomasses in enriched waters. We also found that an important component of bryozoan diets can derive from food items lacking chlorophyll a. Finally, bryozoans may be used as independent proxies for inferring trophic conditions, a feature that may be especially valuable in reconstructing historical environments by assessing the abundance of statoblasts in sediment cores.     

Inter‐specific Variation in Foliar Nutrients and Resorption of Nine Canopy‐tree Species in a Secondary Neotropical Rain Forest

The influence of environmental gradients on the foliar nutrient economy of forests has been well documented; however, we have little understanding of what drives variability among individuals within a single forest stand, especially tropical forests. We evaluated inter‐ and intra‐specific variation in nutrient resorption, foliar nutrient concentrations and physical leaf traits of nine canopy tree species within a 1‐ha secondary tropical rain forest in northeastern Costa Rica. Both nitrogen (N) and phosphorus (P) resorption efficiency (RE) and proficiency of the nine tree species varied significantly among species, but not within. Both N and P RE were significantly negatively related to leaf specific strength. Green leaf N and P concentrations were strongly negatively related to leaf mass per area, and senesced leaf nutrient concentrations were significantly positively related to green leaf nutrient concentrations. This study reveals a strong influence of physical leaf traits on foliar nutrient and resorption traits of co‐occurring species in a secondary wet tropical forest stand.     

Nutrient concentrations in mire vegetation as a measure of nutrient limitation in mire ecosystems

Abstract. The above-ground standing crop and nutrient concentrations in plant material were examined in 45 stands of mire vegetation in the Biebrza peatland, Poland. The stands included flood-plains, rich fens, transitional fens and bogs. The pattern in nutrient concentrations in the above-ground plant material resembled the pattern in nutrient concentrations in peatwater and peat which had been investigated in an earlier study. Concentrations of N were quite uniform along the gradient. P-concentrations were highest in the transitional fen. Critical nutrient concentrations were defined on the basis of a review of nutrient concentrations in plant material from peatlands in which a fertilization experiment had been carried out. Defined critical values for phanerogams were: 13-14 and 0.7 mg/g dry wt for N and P respectively. Concentrations lower than these values indicate deficiency. P/N ratios ≥ 0.07 indicate N-deficiency and P/N ratios ≤ 0.04 — 0.05 indicate P-deficiency. According to these values the Biebrza fens and bogs appear to be primarily deficient in N. The growth of the flood-plain vegetation does not appear to be restricted by nutrients.     

Causes of increased nutrient concentrations in post-fire regrowth in an East African savanna

The aim of the present study was to investigate the causes of increased macronutrient concentrations in above-ground post-fire regrowth in an East African savanna (Northern Tanzania). Experiments were set up to discriminate between the following possible causes: (1) increased soil nutrient supply after fire, (2) relocation of nutrients from the roots to the new shoots, (3) rejuvenation and related changes in plant tissue composition and (4) changes in nutrient uptake in relation to above-ground carbon gains. N, P, K, Ca and Mg concentrations in post-burn graminoid vegetation were compared with clipped and with unburned, control vegetation during the post-burn growth season. One month after burning and clipping, nutrient concentrations in live grass shoots in the burned and clipped treatments were significantly higher than in the control. This effect, however, declined in the course of the season and, except for Ca, disappeared three months after onset of the treatments. There were no significant differences in live grass shoot nutrient concentrations between burned and clipped treatments which suggests that the increased nutrient concentration in post-fire regrowth is not due to increased soil nutrient supply via ash deposition. The relatively low input of nutrients through ash deposition, compared to the amount of nutrients released through mineralisation during the first month after burning and to the total nutrient pools, supports this suggestion. There was no difference between burned and unburned vegetation in total root biomass and root nutrient concentrations. Relocation of nutrients from the roots to the new shoots did not, therefore, appear to be a cause of higher post-fire shoot nutrient concentrations. The present study shows that in this relatively nutrient-rich savanna, the increased nutrient concentration in above-ground post-fire regrowth is primarily due to increased leaf:stem ratios, rejuvenation of plant material and the distribution of a similar amount of nutrients over less above-ground biomass. This revised version was published online in June 2006 with corrections to the Cover Date.     

A comparison of foliar nutrient concentration in trees from monsoon rainforest and savanna in northern Australia

Abstract Analysis of foliar nutrient concentrations revealed that two mesophyllic monsoon rainforest trees had higher concentrations of most nutrients in leaves than eight savanna species. One of the tested monsoon rainforest species with sclerophyllous leaves had similar nutrient concentrations to the savanna tree species. There were positive or no significant correlations between live foliar nutrient concentration and the percentage of nutrients withdrawn prior to litterfall. The nutrient concentration of litter was similar for most nutrients among tree species of monsoon rainforest or savanna. The results of this study suggest that the relative fertility of surface soils of monsoon rainforest compared with savanna is not determined by contrasting nutrient cycling strategies whereby monsoon rainforest tree species enrich their soils with relatively nutrient rich leaf litter relative to savanna tree species.     

Interplant variation in creosotebush foliage characteristics and canopy arthropods

Summary We conducted a field study to test the hypothesis that creosotebush (Larrea tridentata) shrubs growing in naturally nutrient-rich sites had better quality foliage and supported greater populations of foliage arthropods than shrubs growing in nutrient-poor sites. Nutrient-rich sites had significantly higher concentrations of soil nitrogen than nutrient-poor sites. Multivariate analysis of variance revealed significant differences between high nutrient and low nutrient shrubs based on a number of structural and chemical characteristics measured. High nutrient shrubs were larger, had denser foliage, greater foliage production, higher concentrations of foliar nitrogen and water, and lower concentrations of foliar resin than low nutrient shurbs. Numbers of foliage arthropods, particularly herbivores and predators, were significantly higher on high nutrient shrubs. Shrub characteristics and foliage arthropod abundances varied considerably from shrub to shrub. Shrub characteristics representing shrub size, foliage density, foliage growth, and foliar nitrogen and water concentrations were positively correlated with arthropod abundances. Foliar resin concentrations were negatively correlated with foliage arthropod abundances. The positive relationship between creosotebush productivity and foliage arthropods is contradictory to the tenet that physiologically stressed plants provide better quality foliage to insect herbivores.     

Direct quantitative method for evaluating the effect of biocides on Pseudomonas fluorescens in different culture media

A method for quantitative evaluation of the effects of biocides is presented. The method was tested in experiments with Pseudomonas fluorescens grown on various agar nutrient media. The effective concentrations of biocides that decreased the maximum specific rate of the colony biomass growth (mu'm) were called S (suppressing) concentrations, and concentrations that decreased the number of colony-forming units (CFU) were taken as L (sublethal) concentrations. The efficiency of the reported approach was demonstrated in experiments with three biocides tested in four nutrient media. It was found that the biocide sensitivity of Pseudomonas fluorescens varied by a factor of 30, depending on the amount and the type of the nutrient substrate.     

Tissue nutrient concentrations in freshwater aquatic macrophytes: high inter-taxon differences and low phenotypic response to nutrient supply

1. The elemental composition and stoichiometry of aquatic plants has often been suggested to reflect the nutrient enrichment of aquatic habitats. However, the relationship is often weak. Moreover, uncertainties remain in the relevance of laboratory derived critical plant tissue nutrient concentrations to maximum yield or growth rates in the field.
2. Aquatic vascular plants and bryophytes, overlying water and sediment samples were collected to test whether freshwater aquatic macrophytes: (i) show tissue nutrient deficiencies when growing in oligotrophic freshwater habitats, and (ii) have strict homeostatic stoichiometry.
3. Plant nutrient concentrations were significantly related to total inorganic nitrogen (or nitrate), total dissolved phosphorus and sediment total phosphorus. However, these relationships were weak. Virtually all the variance in plant tissue nutrient concentrations, however, could be explained by species (taxon) identity.
4. Critical tissue nutrient concentrations for 95% maximum yield or 95% maximum growth rate in aquatic angiosperms, determined from laboratory bioassays, suggested that nutrients should not limit yield in wild aquatic macrophytes. However, there were a substantial number of samples where potential growth rate limitation was possible, particularly due to phosphorus.
5. Strict C : N : P stoichiometric ratios were found for both vascular plants and bryophytes, suggesting little scope for plants as indicators of nutrient enrichment, but provide robust stoichiometric data for studies on ecosystem metabolism and nutrient cycling.     

Interspecific and geographical differences of plant tissue nutrient concentrations along an environmental gradient in Southern Patagonia, Chile

Foliar nutrient concentrations of South Patagonian ombrotrophic peatland species were analyzed along a gradient of increasing continentality. We paid particular attention to nutrient demands of Sphagnum magellanicum, the dominant constituent of continental raised bogs, and to those of cushion-forming vascular plants such as Astelia pumila, dominating in western hyperoceanic blanket bogs. With exception of one graminoid species, nutrient concentrations in leaf tissues were generally low, but showed considerable variation. Extremely low concentrations were measured in S. magellanicum reflecting the unpolluted, pristine character of the investigated bog ecosystems. Nutrient concentrations in cushion plants showed remarkable variation. While nutrient concentrations in Donatia fascicularis were almost as low as in S. magellanicum, they were significantly higher in A. pumila. Variation in foliar nutrient concentrations was predominantly due to differences between species. Nevertheless, there was a significant shift within species along the considered west-to-east continental gradient. The stronger minerotrophic character of the western cushion bogs was reflected by higher Ca contents. N concentrations increased and P concentrations decreased westward in most species. Consequently, the most noticeable shift was an increasing N:P ratio indicating a higher degree of P limitation towards western cushion dominated blanket bogs.