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1.
Soils in the Dry Valleys of Antarctica are considered to be among the world's most extreme environments. These soils are old, cold and dry with low contents of organic carbon and nitrogen. Habitats adjacent to water (lakes and ice melts) have significant biological activity as demonstrated by the presence of algal mats, lichens and small invertebrates, particularly nematodes, tardigrades and rotifers. In contrast, there are extensive areas in the Dry Valleys that are extremely dry with less than 5% moisture content. These soils are often salty and appear to be barren of life as they have a coarse texture due to their lack of plant organic material. In contrast, molecular techniques (DNA extraction from soils, cloning and rDNA sequence analysis) demonstrated the presence of a complex micro-eukaryotic food web whose structure and composition varied with moisture content and location. Micro-eukaryotic communities in soils with 0.2-1.3% moisture were represented by species of the yeast genus Trichosporon and an unidentified clade of micro-eukaryotes, whereas levels from 3.1% to 4.9% contained complex food webs including primary producers (chlorophytes and stramenopiles), symbionts (lichen associated fungi), saprophytes (fungi), predators (alveolates and cercozoans) and fungal nematode parasite/pathogens. The soils had a diversity of species (80 species from 15 sites) with a restricted number (3-21 species) at each site. The sensitive and measurable community structure of the low moisture Dry Valley soils provides an unparalleled opportunity to examine local and global environmental effects on micro-eukaryotic community dynamics with multiple trophic levels. 相似文献
2.
Climate models predict significant future warming in polar regions. In the McMurdo Dry Valleys, Antarctica, projected summer climate warming is expected to increase snow and glacial melt, resulting in higher stream discharge, rising lake levels, and an increase in areas of moist soil, but the potential influence of warming and associated changes in hydrology on the soil ecosystem is poorly understood. To examine the effects of soil warming and changes in the availability of liquid water on populations of soil invertebrates and their habitat, we established a full-factorial warming and water addition experiment at one experimental site in each of the three hydrologic basins of Taylor Valley, Antarctica, and measured responses over 8 years. We hypothesized that an increase in temperature and moisture together would enhance habitat suitability for soil invertebrates thereby increasing abundance, biomass and diversity of the soil animal communities. Instead, warming treatments had an overall negative effect on density and body size of the microbial-feeding nematode Scottnema lindsayae, the dominant animal in the dry valleys, which decreased by 42% in warmed plots. While experimental moisture additions as a single annual pulse had no effect on nematodes, the surface flooding of one site from rapid melting of upslope subsurface ice (the result of an unusual natural warming event) drastically altered soil moisture, salinity, and animal communities; mortality of S. lindsayae increased and densities decreased. This extreme soil wetting event also resulted in an increase in chlorophyll a and populations of Eudorylaimus spp, a nematode species that prefers moist to wet habitats and feeds on soil micro-algae. Our results suggest that warming in the dry valleys could significantly affect soil nematode populations and species composition both directly and indirectly by altering species-specific habitat suitability for soil biota. 相似文献
3.
N.R. Hulugalle R. Jaya G.C. Luther M. Ferizal S. Daud Yatiman Irhas Z.A. Yufniati F. Feriyanti Tamrin B. Han 《CATENA》2009,77(3):224-231
On 26 December 2004, a tsunami caused extensive loss of life, damaged property and degraded agricultural land in the province of Aceh, Indonesia. While some of the associated soil chemical changes have been documented, information on soil physical properties is sparse. The objective of this study was to quantify physical properties of some tsunami-affected upland agricultural soils in Aceh, Indonesia. Soil was sampled approximately 21/2 years after the tsunami, from the 0–0.1 m, 0.1–0.3 m and 0.3–0.5 m depths in four sites in the villages of Kling Cot Aroun in Aceh Besar sub-district, Kuta Kruen in Aceh Utara sub-district, Udjong Blang Mesjid in Bireuen sub-district and Meue in Pidie Jaya sub-district on the east coast of Aceh. These sites were located within 1 km from the sea at elevations ranging from 0 to 5 m ASL. The soils were Ultisols except for Meue, which was an Entisol. Soil properties measured were bulk density, structural stability and particle size distribution. Soil water retention, pore-size distribution and saturated hydraulic conductivity were estimated by inserting the values of bulk density, clay, sand and silt contents into pedotransfer functions from the literature. The analyses conducted during this study did not permit us to ascertain what proportion of the soil particles were of tsunami-origin. Nonetheless, deposition of finer-textured material may have occurred in two of the sites. In comparison with the greyish-white, coarse textured soil in the rest of the profile, a finer-textured yellow horizon was present in the lower slopes of the Udjong Blang Mesjid site. At Meue, clay and silt contents were higher in the surface 0.3 m than in the 0.3–0.5 m depth, although a distinct horizon was absent. Particle size distribution in all sites was dominated by the sand fraction, although clay and silt contents were relatively high (20–30 g 100 g− 1) at Kuta Kruen. Among the sand fractions, fine sand (0.02–0.25 mm) was highest at Kling Cot Aroun, Kuta Kruen and in the “yellow horizon” at Udjong Blang Mesjid, making them more prone to hardsetting and compaction after intensive tillage. Soil compaction was present in all sites with that in the “yellow horizon” at Udjong Blang Mesjid being highest. The relatively low porosity in this layer may be beneficial, as it is likely to reduce the high rates of water drainage and nutrient leaching in this sandy soil. The more compacted soils were characterised by higher numbers of micropores (r, pore radius < 4.3 μm), lower water retention at saturation, smaller numbers of macropores (r > 14.3 μm), lower hydraulic conductivity and intensive gleying, indicating frequent waterlogging. The soils in all depths from Kling Cot Aroun and the “yellow horizon” at Udjong Blang Mesjid were very dispersive, that at Meue moderately dispersive in the 0.3–0.5 m depth but stable in the 0–0.1 m depth, and at Kuta Kruen very stable in all depths. Soil physical degradation was a feature of the soils examined, and its amelioration will be the key to improving and sustaining crop yields in these soils. Possible management interventions include organic amendments such as compost or manure, and minimum tillage options such permanent beds or zero tillage with retention of crop residues as in situ mulch together with suitable cover crops. 相似文献
4.
M. A. Bronnikova A. V. Panin I. V. Turova O. N. Uspenskaya E. P. Kuznetsova O. S. Khokhlova 《Eurasian Soil Science》2010,43(13):1503-1514
Specific soils on calcareous lacustrine sediments have been described on the islands in the Terekhol Lake, Terekhol’skaya
intermontane trough of the Tuva Upland. The islands themselves originate from frost heaving cycles as shown by their relief
and interfacial analysis of litho- and biostratigraphy of dated cores sampled in the bottom of the lake and on the islands.
Soils of two altitude-age groups (generations) of islands have been studied. Younger islands (400–1700 cal yrs BP) have relative
heights above the lake level below 2.5 m and an active layer 0.6–1.5 m thick. Histic Cryosols (Limnic, Drainic) were found
there. Soils are well drained now and have no relation with the lake waters. The central elevated parts of older, and higher
islands (4000–5000 cal yrs BP; 2.5–4.5 m, active layer about 1.5 m thick) are under dry-steppe phytocenoses on Calci-Mollic
(Histic) Cryosols (Limnic, Calcaric, Gypsiric). The following evolution phases of islands and their soils were reconstructed.
The lacustrine sediments were raised from the sedimentation zone to remain in subaerial conditions, where Histic Cryosols
were formed. Owing to heaving, an admixture of limnic material was included in them. Further heaving resulted in the isolation
of soils from the lake waters, the sedimentation completely stopped, and pedogenesis slowly shifted toward that inherent to
well-drained conditions under dry-steppe vegetation. Histic horizons got degraded and transformed to mollic ones, the permafrost
table moved deeper, carbonates, gypsum and soluble salts were leached from the upper horizons. 相似文献
5.
Antarctic sediments, clays and rock fines collected on Ross Island and in the Wright Valley (L. Vanda, Don Juan Pond) are depleted in Hg relative to Fe. Average Fe/Hg values ofca 9 to 48 × 106 were found. These abundance ratios compare with general terrestrial values of 0.03 to 2.32 × 106 for sedimentary and residual materials andca 3 × 106 for igneous surfaces. Lowest ratios were found in New Zealand clays and mud and in volcanic soils. Algal mats from the Wright and Taylor Valleys averagedca 5 × 106 in Fe/Hg value whereas those from Hawaii and Iceland were < 0.2 × 106. Algal abundance ratios may reflect both exceptionally high Fe content and bio-volatilization of Hg, but sediments, fines and soils with more or less normal Fe content may have lost Hg by leaching as well as evaporation. 相似文献
6.
Francisco L. Prez 《CATENA》2009,76(3):191-205
The influence of tephra covers on soil water was studied in Haleakala (Maui, Hawai'i) during two summers; eight sites with tephra layers and silverswords (Argyroxiphium sandwicense DC.) were sampled at 2415–2755 m. At each site, eight paired-sample sets were obtained in bare soils and under adjacent tephra, at three depths. Tephra were sharply separated from underlying soils and showed prominent vertical stratification. Tephra clast size-distribution was assessed by photosieving and on interstitial-gravel samples; stones included 45.6% cobbles, 29.4% pebbles, and 25% blocks.Moisture content increased with depth in both positions, but soils below tephra had more water at all depths than exposed areas. Surface soils beneath tephra contained 83% more water than bare ground. Soils at 5–10 cm had 106% greater moisture under rocks, but only 70% at 10–15 cm. Differences between plots were statistically significant ( p < 0.001) for surface soils, but less pronounced for subsoils. Soils above 2650 m had greater water content than at lower elevations, and moisture disparity between sample pairs increased with altitude.All soils were coarse, with 20% gravel and 94% sand; most fine material (≤ 0.063 mm) was silt, as clay content was negligible. Organic-matter percentage was low (1.65%). Bulk density and porosity were associated with moisture variation both in tephra-insulated and bare soils; 80% of field moisture was statistically (p < 0.001) accounted for by pore space. Air and soil temperatures were recorded at three sites during one-week periods prior to moisture sampling. Tephra substantially decreased soil maxima and daily thermal amplitude in underlying soils, but did not noticeably affect nightly minima. Thin (5–6 cm) tephra layers were nearly as effective as thicker (9–15 cm) deposits in depressing soil maxima. Possible water-conservation mechanisms under tephra include: decreased evaporation due to ground shielding and lower maxima; reduced capillary flow; greater infiltration depth; nocturnal dew condensation; and fog interception by blocks. 相似文献
7.
Distribution and abundance of soil fungi in Antarctica at sites on the Peninsula, Ross Sea Region and McMurdo Dry Valleys 总被引:1,自引:0,他引:1
Fungal abundance and diversity were studied from 245 soil samples collected in 18 distinct ice-free locations in Antarctica including areas in the McMurdo Dry Valleys, Ross Sea Region, and the Antarctic Peninsula. Cultivable fungal abundance in soil was found to be most positively correlated with percent carbon and nitrogen based on a Spearman’s rank correlation test of six soil parameters. Soil moisture and C/N ratio were also positively correlated with fungal abundance while pH and conductivity were negatively correlated. These results suggest that nutrient limitations in these highly oligotrophic environments are a primary factor in determining the distribution and abundance of indigenous fungi. Other effects of the extreme Antarctic environment likely affect fungi indirectly by limiting the distribution and abundance of plant-derived sources of carbon. 相似文献
8.
A major landslide that occurred in 1569 in the Huangtuwa gully catchment within the Rolling Loess Plateau region of China, resulted in the creation of a landslide-dammed lake at the outlet of the small 0.1 km2 tributary valley of the Houxiaotan Gully. All the sediment transported to the outlet of this catchment was deposited in the lake. After about 30 years the dam failed and the lake deposits were dissected as the stream cut down to its former base level. Substantial remnants of the sediment deposits that accumulated over the ca. 30 year period are, however, preserved as terraces near the outlet of the catchment and a vertical section through these sediment deposits was investigated using stratigraphic and pollen tracing techniques. Individual flood couplets could be clearly distinguished and these permitted the establishment of a chronology for the sediment deposits and the estimation of the sediment yields associated with individual events and individual years. Pollen analysis undertaken on samples collected from the individual flood couplets also provided information on the variation of the pollen content of the sediment and the proportion of Artemisia pollen during the period represented by the deposits. Interpretation of the information assembled from the sediment section has made it possible to reconstruct the erosional history of the Houxiaotan catchment during the 31 year period following the landslide. The average sediment yield of the catchment in the late 16th century was very similar to its present-day sediment yield. The sediment yield from the catchment and the relative contribution of the inter-gully areas, as compared to the gully system, declined immediately after the landslide as a result of abandonment of the cultivated land within the catchment. The restoration of cultivation in the catchment after about 17 years resulted in an increase in sediment yield from ca. 9000 t km− 2 yr− 1 to ca. 30,000 t km− 2 yr− 1 and a substantial increase in the proportion of sediment contributed by the cultivated inter-gully areas. Scope exists to apply a similar approach to the sediment deposits that accumulated in other former landslide-dammed lakes within the Rolling Loess Plateau region of China, in order to develop an improved understanding of the erosion history of the region. 相似文献
9.
Ecosystems within the McMurdo Dry Valleys of Antarctica are highly sensitive to environmental change. Increases in soil temperature and/or moisture content may dramatically change rates of soil respiration and soil carbon (C) turnover. Present estimates of soil respiration rates and C turnover times are based on surface carbon dioxide (CO2) fluxes and soil organic C content. However, the assumption that surface CO2 fluxes are purely biological in origin has not been rigorously tested. We use concentration and, for the first time, the stable C isotopic composition of surface soil CO2 fluxes and subsurface CO2 profiles to: 1) examine mechanisms of soil CO2 uptake and release, 2) identify the location of potential CO2 sources and sinks within the soil profile, and 3) discriminate between biotic and abiotic contributions to CO2 fluxes in soils of Taylor Valley. Surface CO2 fluxes and subsurface CO2 profiles confirm that these soils take up and release CO2 on a daily basis (during the austral summer), associated with small changes in soil temperature. Shifts in the C isotopic composition of soil CO2 are inconsistent with biological mechanisms of CO2 production and consumption. Instead, the isotopic shifts can be accounted for by Henry's Law dissolution and exsolution of CO2 into a solution of high pH, driven by changes in soil temperature. Our results constrain the biological component of soil CO2 fluxes in Taylor Valley to less than 25% (and likely to be significantly less). This finding implies that previous measurements of surface soil CO2 fluxes are overestimates of soil respiration, thus C turnover times calculated from them are underestimates. Discriminating between biotic and abiotic contributions to CO2 fluxes in Antarctic dry valley soils is essential if the effects of climate change on these sensitive ecosystems are to be accurately identified. 相似文献
10.
Nematode community composition and diversity associated with a topoclimatic transect in a rain shadow desert 总被引:1,自引:0,他引:1
Yosef Steinberger Wenju Liang Elena Savkina Tania Meshi Ginetta Barness 《European Journal of Soil Biology》2001,37(4):315
The effect of a topoclimatic gradient on soil nematode communities was investigated in the Israeli Judean Desert. Four locations along a 35 km gradient, from an elevation of 650 m above sea level with 620 mm rainfall to a –60 m relative to sea level with a rainfall below 110 m, were studied: Givat Yearim, Maale Adumim, Mishor Adumim and Kalia. Monthly soil samples were collected between January 1994 and December 1995. Thirteen nematode families and 17 genera were observed. Cephalobus, Heterocephalobus, Aphelenchoides, Tylenchus, Dorylaimus and Eudorylaimus were found to be the dominant genera. Ecological measurements of soil nematode community structure, diversity, and maturity indices were assessed, and comparisons between four locations and four seasons were made. Significant differences in the total numbers of nematodes were found between the locations (p < 0.01) and seasons (p < 0.05), where Givat Yearim > Maale Adumim > Mishor Adumim > Kalia, winter > spring > autumn > summer. Bacterivores were found to be the most abundant trophic group across locations and seasons, with a mean relative abundance of 55.0%. The densities of bacterivores, plant parasites and omnivores-predators during the winter season exhibited similar trends at all four locations, with Givat Yearim > Maale Adumim > Mishor Adumim > Kalia. None of the ecological indices were significantly different between locations. However, the maturity index (MI), trophic diversity (TD) and Simpson diversity (SI) exhibited significant differences between seasons. 相似文献
11.
Pollen analysis was combined with radiocarbon dating, physical, chemical and biological soil analyses and soil micromorphology, to investigate the prehistoric land use at Orstad, in Jæren, southwestern Norway.Orstad is an Early Bronze Age clearance cairn field in a cultural landscape with traces of land use back to the Neolithic. Samples were mainly collected from an 84 m long excavated trench with mainly podzolic soils. Although pollen preservation was poor, it was possible to differentiate five phases in the local vegetation and land use history. Human impact on the site could be traces back to about 4400–4000 BP uncal./3045–2600 cal. BC. Wheat and barley have been cultivated at Orstad during a period from ca. 3600 BP uncal./1945–1750 cal. BC until the Older Iron Age, when heather vegetation began to spread on the site.Soil micromorphology revealed different soil management practices for this time period: The soils seem to have been cleared by fire, prior to cultivation until ca. 3200 BP uncal./1610–1455 cal. BC. Then, new cultivation fields were laid out on higher levels, and seem to have been improved by adding of organic materials, mainly turves taken from podzolic top soils and peats from nearby localities. 相似文献
12.
Mercury accumulations in some fish species from Grenada Lake in north Mississippi exceed the Food and Drug Administration standards for human consumption. This large flood control reservoir serves as a sink for the Skuna and Yalobusha River watersheds whose highly erodible soils contribute to excessively high sediment yields and impaired water quality. This study was conducted to characterize the distribution of total Hg in watershed soils and determine the relationship between the easily transportable clay, organic C (OC), and Fe oxide fractions and the movement of Hg from upland sources to reservoir sinks. Cores were collected from soils, of different land-use, representative of the three soil orders (Alfisols, Entisols, and Vertisols) found in the watersheds. Sediment cores were collected from the Yalobusha River and Grenada Lake. In the laboratory, soil cores were sampled by horizon while sediment cores were sampled in 10 cm increments. These samples were characterized for total Hg, particle size distribution, OC, Fe oxide contents, and pH. Mercury concentrations ranged from 10 to 112 µg kg− 1 in the soil profiles, with average regression coefficient (r2) values of 0.104, 0.362, and 0.06 for Hg versus clay, OC, and Fe oxides, respectively. River sediment cores had Hg concentrations ranging from 0 to 38 µg kg− 1, and significant (1% level) r2 values of 0.611, 0.447, and 0.632 versus clay, OC, and Fe oxides, respectively. Mercury concentrations in the lake sediment ranged from 0 to 125 µg kg− 1. The r2 values for Hg versus clay, OC, and Fe oxides in the lake sediment were 0.813, 0.499, and 0.805, respectively, all significant at the 1% level. These results indicate that total Hg is poorly correlated with the clay, OC, and Fe oxide fractions at depth in the soil profiles because maximum Hg concentrations occur in the surface horizons due to atmospheric in-fall. The statistically significant r2 values for Hg versus these components in the sediment cores are the result of particulate clay, Fe oxides, and finely divided OC sorption of Hg from solution during the runoff and sediment transport process. The higher correlations for the lake sediment reflect an enrichment of the Hg-laden clay fraction relative to stream sediment through flocculation and sedimentation processes in the slack-water environment of the reservoir. 相似文献
13.
A comparison was made between two soil climosequences on north- and south-facing slopes in northern Italy to determine the influence of slope aspect on soil processes. The climosequences span an elevational gradient ranging from moderate (1200 m a.s.l.) to high alpine (2420 m a.s.l.) climate zones on surfaces having an age of about 15 000 years. The soils were investigated with respect to organic C, oxalate and dithionite extractable Fe, Al and Si, elemental losses (Ca, Mg, K, Na, Fe, Al, Si, Mn) and clay minerals. The stocks of soil org. C as well as of oxalate-extractable Fe and Al was greatest in the subalpine zone near the timberline. There are no clear differences in organic C content between the soils on north- and south-facing sites. Fe-oxalate and to a lesser extent Alo-stocks were, however, greater on north-facing sites, indicating that weathering is greater there. Eluviation and illuviation of Al and Fe within the soil profile, typical for podzolisation, was more distinctly expressed on the N slopes. The probability of ITM (Imogolite-type-material) formation in the soil seemed to be greater on south-facing sites. On the north-facing sites, element leaching was most intense in the subalpine zone close to the timberline while on the south-facing sites this was only the case for the base cations. The N slopes exhibited higher leaching of elements which generally indicates a higher weathering intensity. On south-facing sites, typical podzolisation processes were measurable only above 2000 m a.s.l. The development of smectites is also a reflection of the weathering intensity; smectite was discernible in the surface horizon at all sites on N slopes but the highest amount was detected in the sub-alpine climate zone. For the south-facing sites only in the alpine climate zone could smectite be detected. Higher temperatures and an increased number of freeze-thaw cycles on south-facing slopes should theoretically enhance rates of chemical weathering. This could, however, not be confirmed with our measurements. The degree of chemical weathering increases from the south- to the north-facing sites that are characterised by lower temperatures, lower evapotranspiration and consequently by a higher humidity. Although precipitation in Alpine regions is abundant, the availability and flux of water through the soil is the prime factor in weathering intensity. 相似文献
14.
我国湖泊沉积物营养盐和粒度分布及其关系研究 总被引:2,自引:0,他引:2
通过现场采样及室内理化性质分析,研究了我国不同区域6个不同特征湖泊表层沉积物营养盐和粒度的分布及其相互关系。结果发现,浅水富营养化湖泊杞麓湖、巢湖的沉积物营养盐含量和水体富营养化程度一致,而深水湖泊泸沽湖、程海和青海湖的沉积物营养盐含量和水体的营养状态没有关系,尤其是贫营养湖泊泸沽湖,沉积物中TN、TP含量远远高于东部富营养化严重的浅水湖泊。研究湖泊的表层沉积物中TOC与TN和Po表现出显著相关关系,表明沉积物中氮主要以有机氮的形式存在,有机质是有机磷的重要载体。表层沉积物粒径主要集中在64μm以下,不同的湖泊表层沉积物表现不同的粒度分布特征,沉积物营养盐含量较高的杞麓湖、程海、泸沽湖和巢湖的沉积物粒径更细,细颗粒所占比例高低与其污染程度相一致。沉积物中TOC、TN、TP、Pi、Po与小于4μm的细颗粒都呈现显著的正相关关系,而与16~64μm的粒径范围呈现负相关关系。 相似文献
15.
16.
G.K. Gillmore R.A.E. Coningham H. Fazeli R.L. Young M. Magshoudi C.M. Batt G. Rushworth 《CATENA》2009,78(3):285-300
This paper presents direct evidence in the form of a triangular cross-section channel (1 m in width and 0.24 m in depth), for Late Neolithic artificial water management on the Tehran Plain, which may represent the earliest example of artificial water management in Iran. The antiquity of this channel is supported by dating directly above and below by C14, associated ceramic sherds and correlation with Late Neolithic levels. The nature and function of this channel is evaluated through comparisons with natural channels (ancient and modern) together with evidence from palynology and sedimentology. It is here interpreted as a silted-up artificial canal with infill-deposits that indicate periods of shallow relatively quiet flow, periods of drying-out and occasional episodes of greater flow. This study strongly suggests that 6th millennium farmers at Tepe Pardis in Iran were irrigating their crops, and complements the evidence from Choga Mami in Iraq concerning early irrigation systems. 相似文献
17.
This study aimed at identifying the factors that affected the survival of faecal coliforms as measured by E. coli in four types of soils in Botswana which were amended with sewage sludge. Physico-chemical and biochemical properties and coliform population in the different soils, sludge, and soil/sludge mixtures were determined after sampling, on composing the soil/sludge mixtures, and 90 days after composing. Coliform population in the different soil/sludge mixtures decreased by about 90% after 90 days. The age of the sludge used and the rate at which it was applied to the soils initially determined the population of E. coli in each soil/sludge mixture, but after 90 days, differences inherent in the different soil types were the main determinants of the E. coli population. Percentage reduction of coliforms in Type 1 sludge mixtures were lower (38%) than in Type 2 sludge mixtures (57%). Up to 79.8% of the reduction observed in E. coli population in the Barolong luvisol-sludge mixtures after 90 days was caused by reduction in pH and moisture content, while 72.6%, 84.5% and 55.1% of the reduction in E. coli population in Tuli luvisol-, arenosol- and vertisol-sludge mixtures, respectively, was accounted for by the reduction in moisture content and Olsen P concentration. Coliform survival rates varied with soil types being 12%, 6.4%, 5.3% and 5.8% for the vertisol, arenosol, Barolong luvisol and Tuli luvisol, respectively. A minimum period of 90 days should be allowed between when sludge is applied to similar soils and when seeds are sown. The exact period should, however, be determined by the properties of the soil with fine-textured soils requiring a longer period than coarse-textured soils. 相似文献
18.
Sara Vicca Lise Fivez Fred Kockelbergh Dimitri Van Pelt Jan J.R. Segers Patrick Meire Reinhart Ceulemans Ivan A. Janssens 《Soil biology & biochemistry》2009,41(9):2014-2016
In a mesocosm experiment, with bare peat soils exposed to different water levels (WL), we examined whether heterotrophic respiration (Rh) acclimated to a 3 °C temperature increase. Across all WLs, Rh at 15 °C was never lower in the heated treatment than in the unheated treatment, indicating that Rh did not acclimate to the warmer conditions. We hypothesize that this lack of thermal acclimation is due to the unlimited substrate availability in these organic soils. These results imply that peat soils may exhibit a sustained positive feedback to global warming. 相似文献
19.
M. Zimmermann P. Meir M. I. Bird Y. Malhi A. J. Q. Ccahuana 《European Journal of Soil Science》2009,60(6):895-906
Tropical ecosystems play a key role in the global carbon cycle, but their response to global warming is not well understood. Altitudinal gradients offer the unique possibility of undertaking in situ experimental studies of the influence of alterations in climate on the carbon (C) cycle. In a soil‐translocation experiment we took replicate soil cores at 3030 m, 1500 m, 1000 m and 200 m above sea level along an altitudinal gradient in tropical forest in Peru, and exchanged (i.e. translocated) them among these sites to observe the influence of altered climatic conditions on the decomposition of soil organic matter under natural field conditions. Soil respiration rates of the translocated soil cores and adjacent undisturbed soils were measured twice a month from April 2007 to October 2007. The temperature sensitivity of heterotrophic respiration in each core was examined using a Lloyd & Taylor function and a simple modified third‐order polynomial fit. Calculated Q10 values decreased with decreasing altitude using both mathematical functions (2.53–1.24 according to the Lloyd & Taylor function, and 2.56–0.63 using the polynomial fit). Soil organic C‐stocks increased markedly and linearly with altitude, but surprisingly the average total soil respiration rate did not vary significantly with altitude along the transect (3.98–4.31 μmol CO2 m−2 s−1). This implies an increase with elevation of absolute C allocation to below‐ground allocation. 相似文献
20.
Isabella Grishkan Alexander Tsatskin Eviatar Nevo 《European Journal of Soil Biology》2009,45(4):341-350
Microfungal communities from two profiles of the neighboring pale rendzina and basaltic vertisoil in the Upper Galilee area, Israel, were analyzed and compared. The bedrock lithology determines the key differences in mineralogical composition of the contrasting soils on chalk and basaltic rocks. Pale rendzina on chalk is strongly calcareous while the basaltic soil profile is leached from carbonates below the 5–8 cm depth and is significantly magnetically enhanced. The soils also differ in CEC, exchangeable cations, and in microstructure. In parallel, mycobiota isolated by the soil dilution plate method (124 species) displays different patterns both in distribution along the contrasting profiles and in structure of the communities at definite depths. The basaltic mycobiota is significantly richer (87 vs. 69 species in the rendzina) being less heterogeneous and even at a 5–50 cm depth. According to all estimated mycobiotic characteristics, at 15–18 cm depth the differences between the basaltic and rendzina soils are mostly pronounced. Excellent aeration of the basaltic soil in contrast to the rendzina may account at least partly for the peak of mycobiotic differences at this depth. No single edaphic parameter is responsible for the greatest level of variations in the mycobiotic characteristics indicating that co-influence of soil biotic/abiotic factors determined distribution of microfungi throughout the profiles. 相似文献