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1.
PAUL G. SCHABERG PAUL E. HENNON† DAVID V. D'AMORE† GARY J. HAWLEY‡ 《Global Change Biology》2008,14(6):1282-1293
It has been hypothesized that yellow‐cedar [Chamaecyparis nootkatensis (D. Don) Spach] decline may result from root freezing injury following climate change‐induced reductions in protective snow cover. To test this hypothesis, we measured the freezing tolerance and injury expression of yellow‐cedar seedlings in three treatments that differed in the insulative protection they provided to soils during winter and spring: (1) full exposure to ambient temperatures (exposed treatment), (2) continuous protection from ambient temperatures via addition of perlite over pots (full protection), and (3) perlite protection only during winter and exposure to ambient temperatures during spring (partial protection). Foliage from all treatments was cold tolerant enough to prevent foliar freezing injury throughout the study period. However, on all sample dates, roots of seedlings from all treatments were only tolerant to about ?5 °C – a level considerably warmer than the reported maximum cold tolerance for the species and well above the soil temperature recorded in the exposed treatment. As a result of this limited root cold tolerance, visibly uninjured roots of seedlings from the exposed treatment had significantly higher relative electrolyte leakage (REL) throughout the winter and early spring than seedlings in soil protection treatments. Seedlings from the exposed treatment also had significantly higher foliar REL values and greater visual foliar injury than seedlings from the other treatments starting in early spring. For both roots and foliage, REL measurements consistently detected tissue damage before visual injury was evident. Patterns of injury from both REL and visual injury assessments showed the same pattern: damage began with freezing injury to roots and subsequently became evident as foliar browning after spring temperatures increased. All seedlings in the exposed treatment eventually had 100% fine root damage and died. This progression of initial root damage followed by foliar browning and mortality after the onset of warming conditions is consistent with reports of yellow‐cedar decline symptom development in the field. 相似文献
2.
春季冻融期土壤微生物动态会影响生长季的碳和养分循环.在春季冻融期,每隔3~7d取样一次,采用磷脂脂肪酸法(PLFA)研究了兴安落叶松林4种土壤基质的微生物群落时间动态.结果表明:1)土壤微生物PLFAs总量、各类群的PLFAs量和相对丰度、革兰氏阳性细菌/革兰氏阴性细菌(G^+/G^-)、饱和脂肪酸/不饱和脂肪酸(S/NS)和细菌/总真菌(真菌+丛枝菌根真菌)(B/F)均存在显著的取样时间差异;2)在冻融前期土壤总有机碳(TOC)和土壤全氮(TN)是影响土壤微生物的主要因子,在冻融中期土壤湿度和土壤TOC、TN含量是主要影响因子,在冻融后期土壤微生物受到土壤温湿度、土壤TOC、TN含量及土壤碳氮比(C/N)的共同影响;3)土壤微生物PLFAs总量、各类群的PLFAs量和相对丰度(细菌丰度除外)、B/F、G^+/G^-、S/NS在土壤基质间均存在显著差异,土壤TOC、TN和C/N的不同是引起差异的主要环境因素.春季冻融期土壤温湿度和资源有效性是影响土壤微生物群落的主要因子,但影响程度因冻融阶段和微生物类群的不同而存在差异. 相似文献
3.
Wei Hou Yi Xu Shuai Xue Jie Li Yang Yang Zili Yi Tongcheng Fu 《Global Change Biology Bioenergy》2023,15(2):239-253
Determining the effect of perennial energy crop (PEC) cultivation on soil organic carbon (SOC) in marginal land soil is vital for carbon neutrality and bioeconomy development. However, a comprehensive and systematic evaluation of the response of SOC content to different PECs and its underlying drivers is still lacking. We used soil data collected from infertile red topsoil (0–20 cm) after 10 years of cultivation with Miscanthus (MS), Panicum virgatum (SG), and Saccharum arundinaceum (SA) to explore the changes in SOC stock induced by PEC. The roles of physical, chemical, and microbiological factors driving the increase in the SOC stock were investigated. Results revealed that SA and MS enhanced SOC stock by 87.97% and 27.52% relative to the uncultivated control. Conversely, PEC increased the percentage of soil mega-aggregates, geometric mean diameters, soil chelate iron (Fe), and aluminum (Al) oxides, and reduced soil acidity for the infertile red soils. In addition, fungal richness and diversity for PEC soils were enhanced compared to the unplanted soil. It is possible that PEC cultivation reduced the relative abundance of copiotrophic fungi but increased the relative abundance of oligotrophic fungi. Furthermore, variance partitioning analysis revealed that chemical and microbiological factors accounted for 80.54% of the total variation for the SOC stock. The partial least squares path model showed that PEC cultivation enhanced soil carbon (C) stock via soil deacidification and increased soil bacterial function. In conclusion, this study confirms the SOC sequestration potential of PEC cultivation in marginal land and the underlying mechanism driving SOC stock. The main positive factors controlling soil C sequestration included “pH,” while the negative factors were “bacterial community,” “fungal community,” and “bacterial function.” Our research may help encourage and support decision-makers of wasted marginal land conversion to PEC cultivation. 相似文献
4.
Soil solution chemistry was investigated at a forested watershed draining into Woods Lake. N.Y. as part of the Experimental Watershed Liming Study (EWLS). The objective of this study was to assess the response of soil water to watershed treatment of calcite (CaCO3). This material was applied in an effort to mitigate the effects of acidic atmospheric deposition. Soil solutions draining Oa and Bs horizons in reference subcatchments were characterized by low pH and acid neutralizing capacity (ANC) due to elevated concentrations of SO
4
2–
, NO
3
–
and organic anions relative to the sum of base cation (CB Ca2+, Mg2+, Na+, K+) concentrations. Seasonal and spatial variation of pH andANC in soil solutions appeared to belargely controlled by variations in the concentrations of dissolved organic acids which, in turn, were regulated by reactions of Al with soil organic matter. Nitrate was positively correlated and SO2+ was negatively correlated with Ca2+ and Al concentrations in reference soil solutions, indicating that changes in NO
3
–
influences spatial and seasonal variations in Ca2+ and Al concentrations. On this basis, NO
3
–
appears to be important in soil acidification and the dynamics of drainage water acidity. Comparison of our results with historical data for the site showed declines in concentrations of SO
4
2–
, which are consistent with decreases in emissions of SO4, in the eastern U.S. and atmospheric deposition of SO
4
2–
, to the Adirondack region. Mineral soil solutions have shown large increases in concentrations of NO
3
–
. Declines in concentrations of CB and increases in concentrations of Al have occurred over the last ten years, suggesting depletion of soil pools of exchangeable basic cations and increased sensitivity to acidic deposition. Calcite (CaCO3) treatment of 6.89 Mg/ha resulted in a significant increase of Ca2+, ANC and pH in both Oa and Bs horizon soil solutions. Soil water response to CaCO3 addition was most evident during the first year after treatment, apparently due to macropore transport of particulate and dissolved CaCO3 However, increases in ANC and pH in the mineral soil waters were not sustained and appeared insufficient to result in substantial improvement in surface water quality over the 43 month study period. 相似文献
5.
施肥方式和园龄对洛川苹果园土壤钙素退化的影响 总被引:1,自引:0,他引:1
为明确黄土高原苹果产区施肥方式和园龄对土壤钙素含量和钙素贮量的影响,本研究以位于世界苹果优生区的陕西省洛川县苹果园为研究对象,分别研究不同施肥方式和不同园龄苹果园0~100 cm土层土壤碳酸钙、水溶性钙和交换性钙含量及其贮量的变化特征.结果表明: 洛川县苹果园土壤钙素递减式退化现象严重,长期大量单施化肥苹果园土壤钙素退化现象明显大于化肥与农家有机肥配施苹果园,单施化肥苹果园比化肥与农家有机肥配施苹果园0~100 cm土层土壤碳酸钙、水溶性钙和交换性钙平均含量分别减少38.8%、25.4%和5.6%,3种形态土壤钙素贮量依次减少36.4%、26.0%和4.3%;苹果园土壤钙素退化程度随园龄增加不断加剧,园龄>25年苹果园比园龄≤10年苹果园0~100 cm土层土壤碳酸钙、水溶性钙和交换性钙平均含量分别减少48.8%、69.4%和39.5%,3种形态土壤钙素贮量分别减少40.8%、64.1%和33.0%.长期大量单施化肥和长期种植苹果树均对土壤碳酸钙、水溶性钙、交换性钙有明显的耗竭作用,钙素递减式退化特征明显,化肥与农家有机肥配施能够有效减缓土壤钙素退化,对于园龄>25年的高龄苹果园应加强土壤钙素管理.施肥方式是苹果园土壤钙素递减的驱动因素,钙素递减呈现出明显的时(园龄)空(土层深度)效应. 相似文献
6.
Plant growth chambers for the simultaneous control of soil and air temperatures, and of atmospheric carbon dioxide concentration 总被引:1,自引:0,他引:1
DENNIS C. GORDON MARGRET M.I. VAN VUUREN BRUCE MARSHALL DAVID ROBINSON 《Global Change Biology》1995,1(6):455-464
Many facilities for growing plants at elevated atmospheric concentrations of CO2 ([CO2]) neglect the control of temperature, especially of the soil. Soil and root temperatures in conventional, free-standing pots often exceed those which would occur in the field at a given air temperature. A plant growth facility is described in which atmospheric CO2 can be maintained at different concentrations while soil and air temperatures mimic spatial and temporal patterns seen in the field. It consists of glasshouse-located chambers in which [CO2] is monitored by an infra-red gas analyser and maintained by injection of CO2 from a cylinder. Air is cooled by a heat exchange unit. Plants grow in soil in 1.2 m long containers that are surrounded by cooling coils and thermal insulation. Both [CO2] and temperature are controlled by customized software. Air temperature is programmed to follow a sine function of diurnal time. Soil temperature at a depth of 0.55 m is programmed to be constant. Temperature at 0.1 m depth varies as a damped, lagged function of air temperature; that at 1.0 m as a similar function of the 0.55 m temperature. [CO2] is maintained within 20 μmol mol?1 of target concentrations during daylight. A feature of the system is that plant material is labelled with a 13C enrichment different from that of carbon in soil organic matter. The operation of the system is illustrated with data collected in an experiment with spring wheat (Triticum aestivum L., cv Tonic) grown at ambient [CO2] and at [CO2] 350 μmol mol?1 greater than ambient. 相似文献
7.
Soil properties and Austrocedrus chilensis forest decline in Central Patagonia, Argentina 总被引:1,自引:0,他引:1
Austrocedrus chilensis forests in Argentina suffer a widespread mortality, locally known as `mal del ciprés', whose causes remain unknown. `Mal del ciprés' occurs throughout the cypress range in Argentina, being Río Grande Valley, in Central Patagonian Andes, an area where the disease has notoriously increased its extension and importance in the last years. The purpose of this work was to characterize Río Grande Valley soils where declining cypress stands develop and to determine what soil properties are associated with the disease. Four sampling sites with pure cypress forests expressing `mal del ciprés' were selected. In each of them, 3 declining and 3 asymptomatic plots were established and were characterized by edaphic features. Selected morphological, physical and chemical soil properties were related to the occurrence of the decline by means of analysis of variance. The cypress forest developed in a wide range of soils with different parent materials: glacifluvial, alluvial, volcanic with a glacifluvial discontinuity, volcanic on an andesitic substratum, and soils derived from andesite alteration. All the soils presented dark superficial horizons, rich in organic matter and with granular structure. Cypress growing on volcanic soils with a glacifluvial discontinuity presented symptoms of decline in areas where the discontinuity, and therefore the clayey horizon and the redoximorphic features, were close to the surface. In soils derived from andesite alteration, the declining forest was also present on shallow soils with redoximorphic features near the surface. In volcanic soils with a lithological discontinuity of andesite, the decline was restricted to areas near a water stream. In alluvial soils, declining trees appeared related with the flood plain of the river; healthy forest stands developed on higher lands, where soils were well drained. Glacifluvial soils, presenting clayey textures and great difficulties for rooting, were the soils submitted to the worst drainage conditions. In these soils, the decline presented a random pattern of distribution, suggesting that the whole area is prone to develop the decline. Results showed cypress capacity to inhabit different soils; however microsite features related to poor drainage (i.e., low slope, nearness to water streams, the presence of clay and redoximorphic features near to the surface) determined a higher risk of disease occurrence. 相似文献
8.
DORIEN M. KOOL † HAEGEUN CHUNG KEVIN R. TATE‡ DES J. ROSS‡ PAUL C. D. NEWTON§ JOHAN SIX 《Global Change Biology》2007,13(6):1282-1293
Soil has been identified as a possible carbon (C) sink to mitigate increasing atmospheric CO2 concentration. However, several recent studies have suggested that the potential of soil to sequester C is limited and that soil may become saturated with C under increasing CO2 levels. To test this concept of soil C saturation, we studied a gley and organic soil at a grassland site near a natural CO2 spring. Total and aggregate‐associated soil organic C (SOC) concentration showed a significant increase with atmospheric CO2 concentration. An asymptotic function showed a better fit of SOC and aggregation with CO2 level than a linear model. There was a shift in allocation of total C from smaller size fractions to the largest aggregate fraction with increasing CO2 concentration. Litter inputs appeared to be positively related to CO2 concentration. Based on modeled function parameters and the observed shift in the allocation of the soil C from small to large aggregate‐size classes, we postulate that there is a hierarchy in C saturation across different SOC pools. We conclude that the asymptotic response of SOC concentration at higher CO2 levels indicates saturation of soil C pools, likely because of a limit to physical protection of SOC. 相似文献
9.
Aims: To improve our understanding of the survival and splash‐mediated transfer of zoonotic agents and faecal indicator bacteria introduced into soils used for crop cultivation via contaminated irrigation waters. Methods and Results: Zoonotic agents and an Escherichia coli marker bacterium were inoculated into borehole water, which was applied to two different soil types in early‐, mid‐ and late summer. Decline of the zoonotic agents was influenced by soil type. Marker bacteria applied to columns of two soil types in irrigation water did not concentrate at the surface of the soils. Decline of zoonotic agents at the surface was influenced by soil type and environmental conditions. Typically, declines were rapid and bacteria were not detectable after 5 weeks. Selective agar strips were used to determine that the impact of water drops 24–87 μl could splash marker bacteria from soil surfaces horizontal distances of at least 25 cm and heights of 20 cm. Conclusions: Soil splash created by rain‐sized water droplets can transfer enteric bacteria from soil to ready‐to‐eat crops. Persistence of zoonotic agents was reduced at the hottest part of the growing season when irrigation is most likely. Significance and Impact of the Study: Soil splash can cause crop contamination. We report the penetration depths and seasonally influenced declines of bacteria applied in irrigation water into two soil types. 相似文献
10.
塔克拉玛干沙漠腹地冬季土壤呼吸及其驱动因子 总被引:1,自引:0,他引:1
利用Li-8150系统测定了塔克拉玛干沙漠腹地冬季(1月)土壤呼吸,分析了环境驱动因子对极端干旱区荒漠生态系统土壤呼吸的影响。结果表明:(1)冬季土壤呼吸日变化呈现出显著的单峰曲线,土壤呼吸速率最大值出现在12:00,为0.0684μmol CO2m-2s-1,凌晨04:00附近出现最小值,为-0.0473μmol CO2m-2s-1;(2)土壤呼吸速率与各层气温,0cm地表温度均存在着极其显著或显著的线性关系,且都具有正相关性;(3)土壤呼吸速率与5cm土壤湿度存在着较为明显的线性关系,该层湿度能够解释土壤呼吸的69.5%;(4)0cm地表温度对土壤呼吸贡献最大,其次是5cm土壤湿度;(5)以0cm地表温度、5cm土壤湿度为变量,通过多元回归分析表明:土壤温度-湿度构成的多变量模型能够解释大于86.9%的土壤呼吸变化情况;(6)研究时段内土壤呼吸速率的平均值是-1.45mg CO2m-2h-1。 相似文献
11.
Studies on the effect of soil temperature on internal water relations of well watered soybean (Glycine max L.) at constant air temperature under controlled conditions were carried out. A specially designed thermogradient tank was used for obtaining a range of soil temperatures. Data on shoot height, shoot weight, root length, root weight, leaf area and leaf water potential were obtained at 41 days after sowing and the highest values of these parameters were recorded at 28.6°C. The air temperature during the course of these investigations was 25±1°C and it may be concluded that slightly warmer soil temperatures than air temperatures were optimal for soybean with regard to the above measured parameters. 相似文献
12.
The pH of weak-acid solutions is controlled by acid concentration (HA + A–), the degree of acid dissociation (A–/HA), and the strength of the acids present (pKa). We developed an empirical approach that allows the relative importance of each of these factors to be estimated for soils. This empirical model was applied to soils collected from an old-field plantation of loblolly pine (Pinus taeda L.) at 5 and 25 years of age. During this period, soil pH dropped by 0.3 to 0.8 units, and extractable calcium, magnesium and potassium declined by 20 to 80%. The empirical model indicates that the decline in pH resulted largely from the reduction in base saturation of the exchange complex. However, the average acid strength of the exchange complex decreased during the 20 years, preventing a greater decline of perhaps 0.1 to 0.2 units in the observed pH. The rate of decrease in the acid neutralizing capacity to pH 3.5 was about 1.3 kmolc/ha annually, while the increase in base neutralizing capacity was about 2.7 and 1.6 kmolc/ha annually to pH 5.5 and 8.2, respectively. Extractable alkali and alkaline earth cations declined by about 2.2 kmolc/ha annually, matched by the rate of increase in aluminium. These changes demonstrated the dynamic nature of poorly buffered soils, and indicated that changes in soil acidity may be expected over a period of decades (especially following changes in land-use). 相似文献
13.
Amin Khanchezar Keramatollah Izadpanah Maryam Mirtalebi 《Journal of Phytopathology》2020,168(7-8):460-468
Citrus decline has become a devastating problem in citrus-growing regions of southern Iran. The affected trees show progressive yellowing of leaves, thinning of the canopy, dieback and total collapse. Despite a number of attempts, the aetiology of the decline has remained uncertain. In the present study, we evaluated the potential association of various biotic and abiotic factors with the decline in the Fars Province of Iran. Biotic agents surveyed included Candidatus Liberibacter asiaticus, Spiroplasma citri, phytoplasmas, Tylenchulus semipenetrans and root infecting fungi and oomycetes. Abiotic factors studied were soil and water salinity, changes in prevailing temperature and other environmental conditions. In our surveys, Ca. L. asiaticus, either alone or in combination with other factors, had the highest frequency of association (92%) with the decline, followed by S. citri (75%). Ca. L. asiaticus was not detected in any of the non-decline trees examined. Pythium or Phytophthora species and a fungus of theFusarium solani species complex were also isolated from roots of many declining trees. Phytoplasmas were found only in few cases, and populations of citrus nematode were often below the threshold of economic loss. Soil/water salinity were in the suitable range for citrus cultivation in most cases. It is suggested that the decline is initiated by Ca. L. asiaticus infection, which is known to weaken the root system and make it vulnerable to infection by opportunistic soil fungi and oomycetes. S. citri, summer temperatures, low air humidity and overbearing of the trees seem to be other potential factors contributing to the intensity of the disease. 相似文献
14.
研究侵蚀土壤有机质矿化及其温度敏感性(Q10)对深入认识水土流失地区土壤有机碳动态变化具有重要意义。该文以福建省长汀县河田镇严重侵蚀区的裸露红壤为研究对象, 通过测定不同培养温度(10 ℃、20 ℃和30 ℃)下的土壤有机碳矿化速率、培养过程中微生物生物量碳(MBC)和可溶性有机碳(DOC)含量的变化, 探讨了温度对严重侵蚀红壤有机碳矿化特征的影响及其Q10。结果表明: 温度对严重侵蚀红壤有机碳矿化具有显著影响, 温度越高土壤有机碳矿化速率和矿化率越高; 培养过程中土壤有机碳累积矿化量与MBC显著正相关, 与DOC极显著负相关, 说明微生物生物量和可利用碳含量显著影响土壤有机碳的矿化。尽管严重侵蚀红壤有机碳含量仅为1.54 g·kg-1, 但培养180天的土壤有机碳的累积矿化率高达22.2%-33.3%, 表明侵蚀红壤有机碳容易被矿化。严重侵蚀红壤在10-20 ℃时的Q10值为1.41, 20-30 ℃时Q10值下降到1.06, 土壤有机碳质量低是导致Q10值较低的重要原因, 而严重侵蚀区的红壤长期裸露使微生物对高温产生适应性是高温时Q10值接近1的重要原因。因此, 在未来气候变暖的趋势下, 恢复植被覆盖对减少严重侵蚀红壤有机碳矿化损失具有重要意义。 相似文献
15.
Teresa M. Fonovich Cristina S. Pérez Coll Lucila Blanco Bermudez Mónica Guraya Gisela Cappari Soledad Perez Catán 《Soil & Sediment Contamination》2021,30(2):187-200
ABSTRACT Nanomaterials (Nms) applications and environmental deposition are continuously increasing. Aluminum (Al) and nickel (Ni) fate in soil, both from gamma alumina-based Nms and as chloride salts were evaluted through lysimeters. After 85 days of treatment, which included irrigation and collection of eluates, the soil of each lysimeter was divided into four sections. The metal concentration was analyzed in eluates, soil samples, and extracts. Al and iron (Fe) present in soil eluted from Control lysimeter. Al from Nms suspension treatment was quantified in the eluates since 30 days on. Ni eluted upon solid salt deposition on top of one device. These results indicate that Al and Ni applied under certain conditions on soil, could leach and reach groundwater. The total concentration and bioavailability (extractable metals) of Al and Fe in soils showed similar patterns. Ni was retained only in the soil of devices treated with chloride salts. Bioavailability % results were of concern for Ni under certain conditions of treatment: 15.57% and 11.08% in two chloride salt-treated lysimeters versus 0.55% and 0.47% of those in control and treated with Nms lysimeters. Conducting studies with different kinds of soil and longer treatment periods should be useful to understand Nms-metals fate in the environment. The results presented here constitute important evidences both for significant metal release from Nms and elution and for considerable Ni bioavailability, after deposition on soil in the form of Nms or as a chloride salt, respectively. Then, possible toxic effects could occur through exposure of aquatic and terrestrial organisms. 相似文献
16.
土壤温度与气温对紫花雪山报春光合作用和蒸腾作用的影响 总被引:16,自引:0,他引:16
在气候箱中研究了土壤温度、气温对高山草本植物紫花雪山报春光合作用和蒸腾作用的影响。结果显示 :1 0℃~ 2 5℃土壤温度范围内 ,净光合速率和蒸腾速率及气孔导度和胞间CO2 浓度随土壤温度的变化为“单峰”曲线。“峰”值及其位置受气温影响。在 1 0℃~ 35℃气温范围内 ,净光合速率随气温的变化曲线为“单峰”型 ,蒸腾速率、气孔导度和胞间 CO2 浓度随气温升高既有增加又有减少 ,增加或是减少及变化速率与土壤温度有关。土壤温度和气温对光合作用和蒸腾作用都有影响 ,各因子对光合作用和蒸腾作用的影响受到另一因子的促进或制约。其中一因子处于不利状态 ,光合作用和蒸腾作用都将受到严重损害。土壤温度和气温分别为 2 0℃和 2 5℃时 ,紫花雪山报春叶片净光合速率最大 ,为 1 4 .67μmol CO2 · m-2 · s-1 。光合作用的最适温度范围是土壤温度 1 5℃~ 2 0℃ ,气温 2 0℃~ 2 5℃。经相关系数分析表明 :在不同气温条件下 ,土壤温度变化时净光合速率、蒸腾速率与气孔导度、胞间 CO2 浓度的相关性不同 ;在不同土壤温度条件下 ,气温变化时它们之间的相关性也不同。不同气温下土壤温度影响光合作用、蒸腾作用或不同土壤温度下气温影响光合作用、蒸腾作用的生理机制不完全相同 相似文献
17.
亚热带退化红壤区森林恢复类型土壤有机碳矿化对温度的响应 总被引:1,自引:0,他引:1
土壤有机质分解是陆地生态系统碳循环的重要环节,它不仅受植被类型的影响,对环境温度也十分敏感。以江西省泰和县石溪退化红壤区马尾松(Pinus massoniana)、木荷(Schima superb)和枫香(Liquidambar formosana)3种森林类型为研究对象,将其土壤分别置于4种不同温度(5、15、25℃和35℃)条件下培养,采用碱液吸收法进行为期35 d的土壤碳矿化研究。在同一温度条件下,不同林型土壤CO_2累计碳排放量大小顺序为:枫香马尾松木荷。在4种不同温度条件下枫香林地土壤CO_2累计排放量最大,其次是马尾松林、木荷林,且不同森林类型土壤CO_2累计排放量随温度升高而增加(P0.05)。在15℃、25℃和35℃条件下,不同林地土壤潜在碳排放量间无显著性差异。在15℃和25℃条件下,土壤碳排放量随土壤全碳含量呈现先增后减的变化趋势(P0.05),全碳的极值点分别约为1.83%和1.89%。不同植被类型和培养温度对土壤碳矿化量有显著影响,说明植被类型和温度能够对土壤呼吸产生重要影响,且不同温度对土壤呼吸作用更显著(P0.000),但两因素间并无显著交互效应。在25℃时,不同林型土壤碳排放量随土壤含水量先增后减,表明土壤含水量并不是影响土壤碳排放量的调控因子。采用单库模式方程C_m=C_o(1-exp~(-kt))对土壤潜在碳排放进行模拟,得出不同温度不同林型土壤最大碳排放量随温度升高而增加。不同林型不同温度条件下土壤Q_(10)值范围为1.797—1.971,变化幅度较小,且不同林型土壤Q_(10)值并未表现出显著性差异,这一结论为研究林型和温度对土壤碳矿化的影响提供参考。 相似文献
18.
水热因子对沙漠地区土壤呼吸的影响 总被引:1,自引:0,他引:1
利用Li-6400-09土壤呼吸室和Li-6400便携式光合测定仪,在植物生长季对腾格里沙漠东南缘植被区和流沙区的土壤呼吸进行了连续测定,并分析了温度和水分对土壤呼吸的影响.结果表明:(1)植被区和流沙区土壤呼吸速率的日变化特征相似,即夜间土壤呼吸速率保持在较低的水平,而白天则呈现单峰变化趋势;而季节变化趋势明显不同,即植被区内的土壤呼吸有明显的季节变化,流沙则没有明显的季节变化;(2) 植被区和流沙区0~5cm土壤含水量与土壤呼吸速率均呈显著的线性关系,但植被区的相关性好于流沙区.当0~5cm土壤含水量大于测定期间的平均值 (植被区为6.78%、流沙区6.94%)时,植被区和流沙区的土壤呼吸速率都明显高于土壤含水量小于平均值时的土壤呼吸速率,其土壤呼吸速率平均值之比分别为:2.6、1.5;(3) 土壤呼吸速率与地表5cm处土壤温度呈显著的指数关系,当土壤含水量小于测定期间的平均值时,植被区与流沙区的Q10值分别为1.23和1.43;当土壤含水量大于测定期间的平均值时,植被区与流沙区的Q10值分别为2.23和1.72.由此可见,土壤水分不仅影响了土壤呼吸速率的大小,而且还影响了土壤呼吸速率的温度敏感性. 相似文献
19.
《Systematic and applied microbiology》2020,43(2):126052
Acute oak decline (AOD) affects native UK oak species causing rapid decline and mortality in as little as five years. A major symptom of AOD is black weeping stem lesions associated with bacterial phytopathogens, Brenneria goodwinii and Gibbsiella quercinecans. However, there is limited knowledge on the ecological and environmental reservoirs of these phytopathogens. Rainwater and soils are common reservoirs of plant pathogens in a forest environment; therefore, the aim of this study was to investigate the survival of B. goodwinii and G. quercinecans in vitro when inoculated into rainwater and forest soil using a combination of agar-based colony counts and gyrB gene-targeted quantitative PCR (qPCR). Brenneria goodwinii lost viability on inoculation into soil and rainwater, but was detectable at low abundance in soil for 28 days using qPCR, suggesting a limited ability to persist outside of the host, potentially in a viable but non-culturable (VBNC) state. Conversely, Gibbsiella quercinecans, was re-isolated from rainwater for the entire duration of the experiment (84 days) and was re-isolated from forest soil after 28 days, with qPCR analysis corroborating these trends. These data demonstrate that B. goodwinii is unable to survive in forest soils and rainwater, suggesting that it may be an endosymbiont of oak trees, whereas G. quercinecans remains viable in soil and rainwater biomes, suggesting a broad ecological distribution. These data advance understanding of the potential epidemiology of AOD-associated bacteria and their ecological reservoirs, thus increasing the overall knowledge of the pathology of AOD, which assists the development of future management strategies. 相似文献
20.
FRANK BAUMANN JIN-SHENG HE† KARSTEN SCHMIDT PETER KÜHN THOMAS SCHOLTEN 《Global Change Biology》2009,15(12):3001-3017
We investigated the main parameters [e.g. mean annual air temperature , mean annual soil temperature, mean annual precipitation, soil moisture (SM), soil chemistry, and physics] influencing soil organic carbon (Corg), soil total nitrogen (Nt) as well as plant available nitrogen (Nmin) at 47 sites along a 1200 km transect across the high‐altitude and low‐latitude permafrost region of the central‐eastern Tibetan Plateau. This large‐scale survey allows testing the hypothesis that beside commonly used ecological variables, diversity of pedogenesis is another major component for assessing carbon (C) and nitrogen (N) cycling. The aim of the presented research was to evaluate consequences of permafrost degradation for C and N stocks and hence nutrient supply for plants, as the transect covers all types of permafrost including heavily degraded areas and regions without permafrost. Our results show that SM is the dominant parameter explaining 64% of Corg and 60% of N variation. The extent of the effect of SM is determined by permafrost, current aeolian sedimentation occurring mostly on degraded sites, and pedogenesis. Thus, the explanatory power for C and N concentrations is significantly improved by adding CaCO3 content (P=0.012 for Corg; P=0.006 for Nt) and soil texture (P=0.077 for Corg; P=0.015 for Nt) to the model. For soil temperature, no correlations were detected indicating that in high‐altitude grassland ecosystems influenced by permafrost, SM overrides soil temperature as the main driving parameter at landscape scale. It was concluded from the current study that degradation of permafrost and corresponding changes in soil hydrology combined with a shift from mature stages of pedogenesis to initial stages, have severe impact on soil C and plant available N. This may alter biodiversity patterns as well as the development and functioning of the ecosystems on the Tibetan Plateau. 相似文献