Influence of Soil Moisture on Soil Solution Chemistry and Concentrations of Minerals in the Calcicoles Phleum phleoides and Veronica spicata Grown on a Limestone Soil

Veronica spicata and Phleum phleoides are calcicole plants,mainly occurring on neutral or alkaline soil. An experimentof 16 weeks duration was performed in a glasshouse with theobjective of elucidating the influence of soil moisture levelon soil solution chemistry, and biomass concentrations and uptakeof mineral nutrients by the plants. Seven levels of moisture,corresponding to 35–85% of the water holding capacity(WHC) of the soil, were tested. Soil solution HCO₃, P and Mnconcentrations, and pH, increased, whereas Ca, Mg and Zn concentrationsdecreased, with increasing soil moisture. Concentrations ofK were highest at 50–70% WHC. Concentrations and amountsof P, Zn and Mn in the two species were usually related to soilsolution concentrations; these are elements with low solubilityand availability in calcareous soils. Concentrations of nutrientsin biomass were more influenced by soil moisture in V. spicatathan inP. phleoides . This indicates that P. phleoides is morecapable of controlling its uptake of mineral nutrients, whereasV. spicata is sensitive to variations in soil moisture. It isconcluded that variation in soil moisture regime may greatlyinfluence concentrations of mineral nutrients in calcareoussoil solutions and their uptake by plants. Species able to utilizethese solubility fluctuations may have an advantage in competitionfor nutrients. Variation in soil moisture content might evenbe a prerequisite for adequate acquisition of mineral nutrientsand growth of plants on limestone soils, thereby influencingthe field distribution of native plants among habitats. Copyright1999 Annals of Botany Company Calcareous, calcicole, concentration, mineral, moisture, nutrient, Phleum phleoides, soil, soil solution, uptake, Veronica spicata, water.     

秦岭地区华北落叶松人工林地土壤养分和酶活性变化

以秦岭地区不同林龄(5年生、10年生、20年生、30年生和40年生)华北落叶松人工林为研究对象,采用野外调查采样和室内分析相结合的方法,研究了不同林龄华北落叶松人工林地土壤剖面p H值、有机质养分和酶活性的变化。结果表明:土壤p H值随着林龄有降低趋势,随着土层深度的增加有升高趋势。土壤有机质和土壤速效氮、速效磷和速效钾在近熟龄期显著高于幼龄期。土壤中的磷酸酶、脲酶、蔗糖酶和过氧化氢酶活性随着林龄都呈"高—低—高"的趋势,幼龄期的土壤蔗糖酶活性显著高于近熟龄的,而磷酸酶、脲酶和过氧化氢酶活性是近熟龄期的显著高于中幼龄。土壤速效养分和酶活性都随着土层深度的增加有显著的降低。相关分析表明磷酸酶活性与有机质、速效氮、速效磷、速效钾和脲酶活性呈极显著的正相关性(P0.01),脲酶与有机质、速效氮和速效钾呈极显著正相关。蔗糖酶与过氧化氢酶活性显著负相关(P0.05),与p H值有一定的正相关性。秦岭地区华北落叶松人工林进入近熟林之后土壤肥力有一定的恢复,而在中幼龄阶段土壤养分比较缺乏,尤其是氮磷。     

Nutrient dynamics throughout the rotation of Eucalyptus clonal stands in Congo

The dynamics of the main nutrient fluxes of the biological cycle were quantified in a clonal Eucalyptus plantation throughout the whole planted crop rotation: current annual requirements of nutrients, uptake from the soil, internal translocations within trees, return to soil (litterfall and crown leaching) and decomposition in the forest floor. As reported for other species, two growth periods were identified in these short-rotation plantations: (1) a juvenile phase up to canopy closure, during which the uptake of nutrients from the soil reserves supplied most of the current requirements; and (2) a second phase up to harvest, characterized by intense nutrient recycling processes. Internal translocation within trees supplied about 30 % of the annual requirements of N and P from 2 years of age onwards, and about 50 % of the K requirement. The mineralization of large amounts of organic matter returned to the soil with litterfall during stand development represented a key process providing nutrients to the stand at the end of the rotation. The importance of the recycling processes was clearly shown by the small amounts of nutrients permanently immobilized in the ligneous components of trees, compared with the total requirements accumulated over the stand rotation which were two to four times higher. Small pools of nutrients circulating quickly in the ecosystem made it possible to produce high amounts of biomass in poor soils. The sustainability of these plantations will require fertilizer inputs that match the changes in soil fertility over successive rotations, mainly linked to the dynamics of organic matter in this tropical soil.     

Nutrient Dynamics in Himalayan Alder Plantations

Dynamics of four macro-nutrients were studied in an age series(7, 17, 30, 46 and 56 years) of Himalayan alder (Alnus nepalensisD. Don) plantations in the Kalimpong forest division of theeastern Himalayas. Concentrations of nutrients were in the orderN > K > Ca > P in most of the tree components and inunderstorey vegetation. There was an inverse relationship betweennutrient concentrations of perennial parts and diameter at breastheight. The relative contributions of standing state of nutrientsin different tree components of mature plantations were in theorder; bole > branch > below-ground part > twig andleaf > catkin. Sequential arrangement of nutrient storagein tree components was: N > K > Ca > P. Soil totalN and available P increased with plantation age. Annual inputsof nutrients (kg ha^-1) to the forest-floor via litterfall were:183-235 N, 4·9-7·0 P, 33·5-39·5K, and 9·2-10·8 Ca. Total annual accretion ofN through biological fixation ranged from 29 to 117 kg ha^-1in different plantations. Turnover rate and turnover time fordifferent nutrients in the age series of plantations fluctuatedbetween 0·10-0·55 year^-1 and 1·8-9·3years, respectively. Nutrient use efficiencies decreased withplantation age for all nutrients except for calcium. Uptakeof nutrients is a more energy consuming process than release.Copyright1993, 1999 Academic Press Alnus nepalensis D. Don, plantation age, nitrogen accretion, nutrient concentration, standing state, uptake, turnover     

Soil volume and carbon storage shifts in drained and afforested wetlands of the Paraná River Delta

Wetland ecosystems have a high carbon storage potential as a result of high primary productivity and low decomposition rates dictated by water saturation. In the herbaceous wetlands of the Paraná River Delta, drainage and afforestation with poplars represents one of the dominant land uses. We explored the effects of these interventions on the volume and carbon storage of the young sedimentary soils of the region. At three sites we identified paired stands occupying similar landscape positions and soil types but subject to natural flooding and covered by natural herbaceous communities or drainage and flood control by dikes and covered by poplar plantations established 12, 17 and 19 years ago. Soil sampling at these sites revealed a reduction of the litter compartment (?86 %) and decreasing volume and porosity of its underlying mineral layer (0–10 cm in the wetland reduced to 0–4 cm in the plantation). Our comparisons of carbon storage accounted for these volumetric shifts by using accumulated mineral mass rather than depth as a reference, showing that tree plantations gained in the mineral soil (22 Mg C ha^?1) almost as much as what they lost in the litter. These gains were particularly large at intermediate depths (4–43 cm in the plantations) were soil porosity remained unaffected and C was raised by 64 % explained by (1) the pulse of inputs from overlaying litter and organic layers subject to rapid decomposition and mobilization after drainage and (2) root colonization, since tree plantations had 75 % of their fine root biomass at these intermediate soil depths, whereas roots in the wetlands did not explore the mineral soil profile and were completely confined to the organic layer. A neutral C balance following wetland drainage and afforestation resulted from the opposing effects of aeration, favoring decomposition in the organic layer, root colonization and organic matter stabilization, favoring its accumulation in the mineral soil.     

基于高通量测序的黄河三角洲4种人工林土壤细菌结构及多样性研究

为研究黄河三角洲不同人工林土壤细菌群落特征,应用高通量测序技术,比较分析了刺槐、榆树、白蜡、臭椿4种人工林土壤细菌结构及多样性,并结合土壤理化性质进行相关性分析。结果表明:人工林土壤中共有31门细菌;4种人工林土壤中酸杆菌门、变形菌门、放线菌门细菌以及刺槐、臭椿人工林土壤中硝化螺旋菌门细菌是土壤中的优势群落。不同人工林土壤中酸杆菌门、变形菌门、硝化螺旋菌门、芽单胞菌门、拟杆菌门、广古菌门、泉古菌门、蓝藻菌门细菌丰度差异显著。刺槐人工林土壤细菌多样性最高;白蜡人工林土壤细菌多样性最低。土壤pH、含水量、有机质含量与酸杆菌门细菌丰度呈显著负相关关系,土壤pH与变形菌门、硝化螺旋菌门、芽单胞菌门细菌丰度呈极显著正相关关系;土壤pH、有效磷含量与人工林细菌多样性呈显著正相关关系。以上研究结果表明,黄河三角洲不同人工林土壤细菌群落存在一定差异,土壤pH、含水量、有机质、有效磷含量是影响土壤细菌结构和多样性的主要土壤因素。     

Soil fertility of afforested arable land compared to continuously

In Finland, over 220,000 ha of arable land has been afforested in recent decades. To meet the goals of forest management on afforested fields, information on the effects of former agricultural land use on soil fertility is needed. In this study, we examine the soil fertility of 12 former arable fields afforested either 10 or 60–70 years ago with Norway spruce (Picea abies (L.) Karst.) and adjacent sites that have been forested continuously. Volumetric soil samples were collected from the organic soil layer and from mineral soil to a depth of 40 cm. Soil samples were analyzed for pH, bulk density, organic matter content and amounts of nutrients (Kjeldahl N, extractable P, K, Ca, Mg, Zn and B). On afforested fields, amounts of nutrients in the mineral soil, especially in 10-year-old afforestations, were higher than on continuously forested sites. In the organic layer plus the 0–40 cm soil layer, the 10-year-old afforestations had 68% more N, 41% more P, 83% more K, 252% more Ca, 6% more Mg, 61% more Zn and 33% more B than the continuously forested sites at a comparable soil depth. In the 60–70-year-old afforestations, the differences were significant only for N, Ca and Zn (20% more N, 121% more Ca and 115% more Zn than on the continuously forested sites). The effects of agriculture on amounts of nutrients were most clearly detected in the former plough layer (0–20 cm) of the 10-year-old afforestations and in the top layer (0–10 cm) of the older afforestations. Amounts of nutrients in the organic layer of the afforested sites were lower, but their concentrations were higher than in the continuously forested sites. On the 10-year-old afforestations, the bulk density of the mineral soil tended to be lower and the organic matter content higher than on the continuously forested sites. On both young and old afforestations, soil pH was higher than on the continuously forest sites. According to these results, changes in soil properties caused by agriculture have increased the soil fertility and therefore probably also the site index. The results also suggest that changes in soil properties due to agricultural land use are quite long lasting.     

Effectiveness of wood ash containing charcoal as a fertilizer for a forest plantation in a temperate region

Amendment of forest soils with mixed wood ash (MWA) generated in biomass power plants can prevent the depletion of soil nutrients that results from the intensive harvesting of forest plantations. Unlike fly wood ash, MWA contains charcoal and is characterized by a lower release of nutrients, so that it might be useful as a long term source of nutrients and soil organic matter. However, in order to use MWA as a fertilizer in forest systems, its effectiveness as regards supplying P and N must be improved. These aspects were studied in a 4 year-trial carried out in a Pinus radiata plantation. MWA was added alone or with mineral P, and the results were compared with those obtained with a combination of Ca(OH)₂ and mineral P. The application of MWA together with mineral P fertilizer increased the nutrient supply to the trees, as revealed by the changes in nutrient concentrations, lower values of resorption efficiencies and improved tree growth. The results showed that the amounts of Ca, Mg and K supplied by the MWA were suitable for maintenance of soil reserves. However, the presence of charcoal may have decreased the availability of P. The application of the MWA led to lower soil N mineralization rates and mineral N concentrations, which may affect N-limited systems. The use of density-dependent single tree increment models enabled the positive effects on tree growth of fertilization and thinning to be distinguished. For the treatments supplemented with mineral P, multiplicative factors of 1.13 to 1.15 can be applied to obtain post-thinning predictions of 4-year single-tree basal area increments. Although MWA can be used as a long term source of nutrients, charcoal temporarily reduces the availability of P and N.     

Structure and Function of an Age Series of Poplar Plantations in Central Himalaya. II Nutrient Dynamics

This paper elucidates nutrient dynamics in 5- to 8-year-oldpoplar (Populus deltoides) clone D₁₂₁ plantations previouslyinvestigated for dry matter dynamics. The nutrient concentrationin different layers of the vegetation were in the order: tree> shrub > herb, whereas the standing state of nutrientswere in the order: tree > herb > shrub. Soil, litter andvegetation, respectively, accounted for 80-89, 2-3 and 9-16%of the total nutrients in the system. Considerable reductions(trees 42-54, shrubs 31-37 and herbs 15-23%) in concentrationof nutrients in leaves occurred during senescence. The uptakeof nutrients by the vegetation and also by the different components,with and without adjustment for internal recycling, has beencalculated separately. Annual transfer of litter nutrient tothe soil by vegetation was 113·7-137·6 N, 11·6-14·6P and 80·1-83·2 K kg ha^-1 year^-1. Turnover rateand time for different nutrients ranged between 0·72-0·89year^-1 and 1·12-1·39 years, respectively. Thehigh turnover rate of litter on the forest floor indicates thegreater productivity of the stands, which was due to the higherdry matter dynamics and nutrient release for the growing vegetation.The nutrient use efficiency in poplar plantations ranged from159-175 for N, 1405-1569 for P and 295-332 for K. Compared withEucalyptus, there was a higher proportion of nutrient retranslocationin poplars largely because of higher tissue nutrient concentrations;this indicates lower nutrient use efficiency as compared tothe eucalypt plantation. Compartment models for nutrient dynamicshave been developed to represent the distribution of nutrientpools and net annual fluxes within the system.Copyright 1995,1999 Academic Press Populus deltoides plantations (Clone D₁₂₁), nutrient retranslocation, net nutrient uptake, nutrient use efficiency, nutrient cycling, nutrient pool, nutrient fluxes     

造林整地对栗钙土钙积层化学性质干扰的研究

采用对比分析方法,对不同年龄杨树人工林地整地与未整地土壤化学性质进行了研究．结果表明,经犁沟整地破除钙积层后,土壤化学性质约在１０７年恢复到整地前状态,随后土壤养分迅速减小,以至低于整地前水平．２０年后随着林地有机物质的积累,养分开始回升,最终林地养分高于整地前水平．土壤养分恢复的先后顺序为有机质、ＣａＣＯ３、有效Ｎ、全Ｐ、全Ｎ、速效Ｋ和有效Ｐ,恢复周期分别为６、７、７５、９、１０、１７、１７５年．钙积层部位恢复周期为１１４年,恢复先后顺序为有效Ｎ、全Ｐ、有机质、速效Ｋ、ＣａＣＯ３、全Ｎ和有效Ｐ,恢复周期为５５、６、６、８５、９５、１０、３４年．     

不同林龄油茶人工林土壤-叶片碳氮磷生态化学计量特征

油茶是世界四大木本油料植物之一,在我国有着2000多年的栽培和利用历史。碳(C)、氮(N)、磷(P)化学计量元素是近年来研究的热点,通过C、N、P化学计量我们可以深入了解植物-土壤间元素相互关系,并能揭示土壤养分限制状况。为了解油茶人工林生态系统C、N、P化学计量特征及油茶人工林养分元素限制因素,以长江中下游油茶适宜栽培区湖南、江西和湖北三省油茶林为研究对象,采用空间代替时间的研究方法,在区域尺度上随机选择32个典型油茶人工林并分为4个林龄组(9年低龄林;9—20年高产林;21—60年低产林; 60年生产退化林)。测定油茶人工林土壤与油茶叶片中的C、N、P含量并分析其化学计量特征。研究结果表明:(1)随林龄增加,油茶人工林土壤有机碳(SOC)和全氮(TN)含量增大,而土壤全磷(TP)和速效/kg和5.43 mg P在一定的林龄(60 a)内具有增加的趋势。(2)随林龄增加,油茶人工林叶片C含量无显著变化,N、P含量降低,叶片的C、/kg、11.66—15.46 g增大。此外,叶片N∶P阈值分析发现,叶片N∶P比在四个林龄段均16。(3)相关分析结果表明,油茶人工林土壤SOC和TN具有显著正相关,油茶叶片N和P具有显著正相关。同时,叶片N含量与土壤TN无相关性,而油茶叶片P含量与土壤Olsen-P显著正相关。油茶人工林土壤化学计量C∶N、C∶P和N∶P与叶片C∶N、C∶P呈显著正相关,以及叶片N∶P与土壤C∶P、N∶P呈显著正相关(P0.05)。由以上可见,油茶人工林土壤主要受P养分限制,且随林龄增加,P限制增加。此外油茶叶片N、P吸收具有协同效应,且油茶叶片与土壤元素存在广泛的计量耦合关系。本研究综合分析油茶林叶片与土壤的C、N、P计量特征及其关系,有助于全面系统的揭示油茶人工林生态系统的养分状况,对油茶林高效培育、养分补充或退化林诊断等具有指导意义。     

Growth and mineral nutrition of the native trees Pollalesta discolor and the N-fixing Inga densiflora in relation to the soil properties of a degraded volcanic soil of the Ecuadorian Amazon

Land reclamation in the humid tropics, using native tree plantations, requires a better knowledge of plant-soil interactions, and of patterns of growth of several poorly known species. We examined the establishment and mineral nutrition of two early-successional native tree species, Inga densiflora (N-fixing) and Pollalesta discolor, in relation to properties of a degraded Hydrandept volcanic soil in Ecuadorian Amazon. Initial content of organic matter was the most significant soil variable in explaining the growth of pure stands of both species and was strongly related to effective cation exchange capacity (ECEC) and to net total N mineralization. Leaves of Pollalesta discolor had greater concentration of nutrients than Inga densiflora, which led to a litter-layer rich in nutrients. Deficient concentrations of foliar P, detected on plots with low soil organic matter, were linked to poor growth of Inga densiflora, and indicate that this species may be P-limited. The inclusion of Inga densiflora did not stimulate the growth of Pollalesta discolor in mixed stands. This study indicates that soil organic matter management is an important issue on these degraded volcanic soils. We suggest that a reduction of the pool of labile organic matter appears to hamper tree productivity through a nutrient shortage. The high variability of the degraded soil studied proved to be an obstacle to tree growth and establishment. This revised version was published online in July 2006 with corrections to the Cover Date.     

Fate and effects of phosphorus additions in soils under N2-fixing red alder

Soil phosphorus (P) dynamics are controlled by the interaction of geochemical, biochemical and biological processes. Changes in species composition or management could alter the relative importance of these processes. We examined soil P dynamics in two plantations of N₂-fixing red alder (Alnus rubra) by determining the fate and effects of added fertilizer P. History of the plantations varied such that sites were previously occupied by 60-yr-old stands of alder or non-fixing Douglas-fir (Pseudotsuga menziesii). Without fertilization, the soil with a longer period of alder influence had more organic P (P_o) and less sorbed inorganic P (Hydroxide- and Bicarb-extractable P_i). Fertilization increased soil total P, and 88% of the fertilizer was accounted for in the surface mineral soil (0–15 cm). Sorbed P_i was the major sink for fertilizer P (55–60%), independent of site history. Although P_o was 35–70% of soil P in unfertilized plots, added P did not accumulate as P_o. Neither site history nor P addition influenced phosphatase activity. Fertilization increased decomposition during incubation of the organic horizon, suggesting that late-stage decomposition is P-limited in these N-rich soils. On the time-scale of a few years, geochemical sorption and desorption of inorganic P were the most important processes controlling the distribution of added P. Organic P accumulation is expected to occur over a longer time frame, linked to the production and turnover of organic matter.     

Accumulation and Distribution of Nutrients in Fruits of Castor Bean (Ricinus communis L.)

The nutrition of developing fruits of Ricinus communis was studiednear Perth, Western Australia, where the species grows as aweed on poor sandy soil. Fruits required 60 days to mature anddehydration of the capsule began 20 days before the seeds ripened.Mature seeds accumulated 49 per cent of the fruit dry matterand over 80 per cent of its P, Zn and Cu, 50–80 per centof its Mg, N, Fe and Mn, 41–46 per cent of its S and Caand 11–21 per cent of its K and Na. Losses of nutrientsfrom capsules during fruit ripening were: Zn, 73 per cent, P,42 per cent, Cu, 23 per cent and Mn, 8 per cent. Dry matter,N, K, S, Ca, Mg, Na and Fe were not withdrawn from capsules.Apparent retranslocation from capsules could have provided from6–28 per cent of the Zn, Mn, P and Cu in mature seeds.Seeds from plants on poor sandy soil were small but had adequatelevels of nutrients when compared with those from plants growingon a fertile loam. Concentrations of all nutrients except P were higher in youngcapsules than in young seeds, but levels of N, P, Mg, Fe, Znand Cu were higher in mature seeds than in mature capsules.The intake of most nutrients by fruits was out of phase withdry matter accumulation, especially in capsules, and the elementsappeared to accumulate in fruit parts independently of eachother. Glutamine accounted for over 85 per cent of the amino-Nin phloem sap destined for fruits. Potassium made up over 90per cent of the inorganic cations in phloem exudate. Of theminor elements in the exudate, Fe was present at highest concentrationand Cu at the lowest. The results showed that retranslocation from the capsule madea very small contribution to the nutrition of seeds. It is suggestedthat R. communis would require a sustained supply of soil nutrientsto ensure maximum seed yield, partly due to the restricted retranslocationof most nutrients from capsules. Ricinus communis L., castor bean, mineral nutrition, translocation, retranslocation     

管理措施对人工林土壤质量的影响

可持续性生产力是人工林发展的一个关键问题。然而,人工林培育过程中常出现土壤质量退化和人工林生产力下降等问题。管理措施是人工林发展过程中土壤质量变化的一个重要因素,正确的管理措施能够维护和提高林地的土壤质量。管理措施主要包括整地、施肥、林地收获与凋落物管理和营造混交林等。不同的整地方式、整地强度、整地时间等能改变土壤物理、化学和生物学性状,进而对其土壤质量产生一定的影响;施肥措施能改善土壤质量、提高人工林生产力,而过量施肥能够导致林地养分的流失和地下水质的恶化;木材收获和林地凋落物焚烧导致人工林系统养分的大量流失,加强对人工林系统有机物质的保护有利于林地土壤质量的改善;营造混交林在一定程度上有利于土壤质量维护,由于物种间存在复杂的相互关系,其对混交树种、混交方式和立地条件的选择等管理措施均能影响土壤质量。最后,文章对今后人工林管理措施对土壤质量影响的重点研究方向作了展望。     

辽东山区不同林龄日本落叶松人工林土壤微生物、养分及酶活性

对辽宁省抚顺市大孤家林场11、20、34和47年生日本落叶松人工纯林表层土壤(0~5 cm)微生物群落结构、养分及酶活性进行了研究.结果表明: 土壤微生物、养分及酶活性各项指标基本呈现11或47年林龄较高,而20或34年林龄较低.随林龄增加,土壤地力呈现衰退趋势,土壤微生物群落结构及酶活性变化对地力衰退呈现响应趋势,不同林龄真菌群落结构的差异较细菌显著.典范对应分析(CCA)表明,土壤养分含量及pH值对微生物群落结构的季节变化没有影响,但对在不同林龄间微生物的变化有影响.土壤全氮、有机碳、C/N、速效氮和pH值对不同林龄细菌分布影响较大,土壤速效磷、全钾、交换性镁离子和pH值对真菌分布影响较大.细菌与真菌群落主要的T RFs片段与氮、磷的相关性都较高,而真菌群落与有机碳、钾的相关性高于细菌群落.11和47年林龄微生物群落与土壤养分、酶活性的相关性高于20与34年.因此,土壤微生物(尤其是土壤真菌)可以敏感地指示土壤肥力的变化.     

The Saprophytic Status of Fusarium oxysporum Schl: Causing Vascular Wilt of Oil Palm

The droplet plating method described, especially when used inconjunction with a baiting technique, facilitates the demonstrationof Fusarium oxysporum in soil. This fungus was present in soilfrom wilt-free areas of oil palm plantations as well as in soilabout wilt-diseased palms. Hyphal fusions between soil isolatesand isolates from wilted palms could be demonstrated. The funguspersisted for periods of at least ¹ year in naturally infestedsoils under a variety of moisture conditions; it also survivedin inoculated alien soil forms of Ieast ¹year. Soil forms ofthe fungus had a high competitive saprophytic ability, competitivelycolonizing sterilized soils and sand, and organic materialsadded to soils and mixed cultures. The pathogenic isolate, aswell as the soil isolates, exhibited characters belonging tosoil-inhabiting fungi, namely continued persistance in soil:tolerance, in respect of growth and reproduction, to antagonism:and the ability competitively to colonize dead organic materialin soils. The pathogenic form is considered to be a soil inhabitant.     

The effect of parent material and soil development on nutrient cycling in temperate ecosystems

The parent material of a soil determines the original supply of those nutrient elements that are released by weathering and influences the balance between nutrient loss and retention. Organic acids and exudates produced by microorganisms and plants enhance the weathering of minerals and the release of nutrients. Nutrients may be stored in organic cycles or as ions adsorbed to clay and organic matter. Nutrients are lost mainly by leaching, both as dissolved ions and when associated with soluble organic components. Soil formation evidently affects these processes and modifies the environment at different depths as soil horizons develop. Strong interactions between mineral and organic colloids occur where most residues are added below ground, as in grasslands, or mixed with mineral soil by faunal activity, as in some forests. These systems tend to be nutrient conserving. The addition of organic residues to the soil surface often results in slow decomposition, the tie-up of many nutrients in biologically resistant humic materials, and the generation of organic acids that are active in leaching and chelation. These soils tend to lose nutrients by leaching and become strongly acidic with time. Leaching is strongest in uplands with net downward flows to deep water tables, and may be dampened or obviated in lowlands with strong upward fluxes due to artesian pressure or capillary rise from a water table that is close to the surface. Pedogenic features such as clayeyB horizons or duripans may alter water flow. Simonson's concepts that all basic soil-forming processes occur to some degree in all soils are critical to developing models describing soil formation and nutrient cycles.     

Analysis of the soil microbial communities in Pinus tabulaeformis Carr. and Bupleurum chinense plantations of the Xiaolongshan Mountain region,Gansu Province,China

Soil microbes play important roles in the nutrient cycles and energy flows of the soil ecosystem. Bupleurum chinense has long been widely cultivated on piedmont farmland in the Xiaolongshan Mountain region; however, the piedmont farmland that was formerly planted with Bupleurumchinense has now been planted with seedlings of Pinus tabulaeformis, a species that has recently been promoted widely in the region. Changes in the composition of the soil microbial community after planting with P. tabulaeformis are not well understood. In this study, using high-throughput sequencing technology, we investigate the soil microbial community of four year old P. tabulaeformis and B.chinense plantations in the Xiaolongshan Mountain region. Furthermore, the response of the soil microbial community to the changes in soil properties was analysed. The soil organic matter (SOM) and available phosphorus (AP) contents were lower in P. tabulaeformis plantations compared with B.chinense plantations. The soil fungal community in P.tabulaeformis plantations had higher diversity indices than that in B.chinense plantations. With respect to the dominant bacterial groups, Proteobacteria had lower relative abundance in P. tabulaeformis soil than in B.chinense soil, and Chloroflexi had higher relative abundance in P. tabulaeformis soil than in B.chinense soil. For the dominant fungal groups, Ascomycota was less abundant in P. tabulaeformis soil than in B.chinense soil. Redundancy analysis (RDA) showed that the SOM significantly correlated with soil fungal communities. These findings suggest that soil nutrients of the cultivated land were decreased in plantations of P. tabulaeformis 4 years after planting. Pinustabulaeformis did not significantly affect soil bacterial communities; however, the changes in the soil fungal communities of both Pinustabulaeformis and Bupleurumchinense plantations may be attributed to the phyla present (Ascomycota), which were primarily affected by soil organic matter in the Xiaolongshan Mountain region.     

中国北亚热带天然次生林与杉木人工林土壤活性有机碳库的比较

为了了解北亚热带东部地区天然次生林转变成杉木(Cunninghamia lanceolata)人工林对土壤活性有机碳库的影响, 以浙江省富阳市庙山坞森林生态系统定位研究站杉木人工林和天然次生林为研究对象, 对达到成熟林状态的两种林分类型0-60 cm内各土层土壤活性有机碳含量进行了比较研究。结果表明: 1)天然次生林土壤总有机碳、易氧化有机碳、水溶性有机碳和轻组有机质含量均高于杉木人工林, 与人工杉木林相比, 增幅分别为19.0%-32.6%、0.8%-30.3%、3.8%-54.1%和6.3%-38.6%, 且在0-10和10-20 cm土层差异显著(p < 0.05) (水溶性有机碳仅在0-10 cm土层差异显著); 2)杉木人工林土壤水溶性有机碳与易氧化碳占总有机碳的比率均高于天然次生林; 3)两个林分土壤水溶性有机碳、易氧化碳和轻组有机质与总有机碳含量均呈现极显著相关, 且天然次生林土壤易氧化碳、轻组有机质与总有机碳的相关系数均大于杉木人工林; 4)土壤有机碳、水溶性有机碳、易氧化碳和轻组有机质与土壤养分(全氮、水解氮、速效磷、速效钾、速效钙和速效镁)的相关性均达到显著(p < 0.05)或极显著(p < 0.01)水平。