共查询到20条相似文献,搜索用时 15 毫秒
1.
Vermicomposting is an eco-biotechnological process that transforms energy-rich and complex organic substances into a stabilized
humus-like product. In a laboratory experiment, Eisenia fetida (Sav.) earthworms were employed to process putrescible sewage sludges into a high-value biofertilizer, very rich in urease
activity and humic-urease complexes (stabilized extracellular enzymes). Extracellular humic-urease complexes were extracted
by a single 24-h extraction at 37 °C using neutral pyrophosphate (0.1 M); then, the extracts were dialysed and characterized
by means of an analytical isoelectric focusing technique. This technique gave a multiplicity of humic bands enzymatically
active, with isoelectric points ranging from 4.8 to 5.6. The results demonstrated that, after an 18-week incubation period,
sewage sludge had undergone a biochemical evolution, which caused a doubling of absolute urease activity and a six-fold increase
in specific activity (activity with reference to the humic C fraction). The biochemical evolution of the vermicompost was
evaluated also from the sharp decrease in pyrophosphate-extractable C and water-soluble C. Stabilization of organic C during
vermicomposting and the activity of humic-urease complexes expressed at low pH values are of extreme importance when organic
wastes are used in acid soils for biochemical restoration purposes.
Received: 10 June 1999 相似文献
2.
Nitrogen excretion rates of 15N-labeled earthworms and contributions of 15N excretion products to organic (dissolved organic N) and inorganic (NH4-N, NO3-N) soil N pools were determined at 10 °C and 18 °C under laboratory conditions. Juvenile and adult Lumbricus terrestris L., pre-clitellate and adult Aporrectodea tuberculata (Eisen), and adult Lumbricus rubellus (Hoffmeister) were labeled with 15N by providing earthworms with 15N-labeled organic substrates for 5–6 weeks. The quantity of 15N excreted in unlabeled soil was measured after 48 h, and daily N excretion rates were calculated. N excretion rates ranged
from 274.4 to 744 μg N g–1 earthworm fresh weight day–1, with a daily turnover of 0.3–0.9% of earthworm tissue N. The N excretion rates of juvenile L. terrestris were significantly lower than adult L. terrestris, and there was no difference in the N excretion rates of pre-clitellate and adult A. tuberculata. Extractable N pools, particularly NH4-N, were greater in soils incubated with earthworms for 48 h than soils incubated without earthworms. Between 13 and 40% of
excreted 15N was found in the 15N-mineral N (NH4-N+NO3-N) pool, and 13–23% was in the 15N-DON pool. Other fates of excreted 15N may have been incorporation in microbial biomass, chemical or physical protection in non-extractable N forms, or gaseous
N losses. Earthworm excretion rates were combined with earthworm biomass measurements to estimate N flux from earthworm populations
through excretion. Annual earthworm excretion was estimated at 41.5 kg N ha–1 in an inorganically-fertilized corn agroecosystem, and was equivalent to 22% of crop N uptake. Our results suggest that the
earthworms could contribute significantly to N cycling in corn agroecosystems through excretion processes.
Received: 12 April 1999 相似文献
3.
Earthworm response to 10 weeks of incubation in a pot with acid mine spoil,sewage sludge,and lime 总被引:1,自引:0,他引:1
Applications of sewage sludge and lime have been used to restore some of the nearly 1.0 million ha of unreclaimed acid mine spoils in the United States. Earthworms might also aid in the reconstruction of mine spoils, but the earthworm response to mine spoils and sludge has not been widely studied. The objective of the present study was to examine growth of the earthworm Lumbricus terrestris in pots containing acidmine spoils, sewage sludge, and lime, and the growth of two common reclamation grasses, timothy (Phleum pratense L.) and tall fescue (Festuca arundinacea Schreb.), to the addition of earthworms. After 10 weeks, earthworms growing in the mine spoil treated with sewage sludge showed an increase in mean specific mass of 26.9% and in projected specific area of 24.5%. In contrast, earthworms growing on mine spoils without sludge decreased in mass by an average of 39.6% and in area by 21.0%. Soil pH influenced earthworm area, but not mass: earthworms growing on mine spoils (with or without sludge) showed an increase in mean surface area of 2.9% at pH 5.3 and a decrease of 11.2% at pH 6.5. The presence of earthworms significantly increased the belowground production of plant roots, but had no effect on either soil bulk density or above-ground production of plant biomass. The addition of earthworms to acid mine spoils treated with sewage sludge and lime might aid in the redevelopment of soil quality and biological diversity. 相似文献
4.
F. M. Hashem D. M. Swelim L. D. Kuykendall A. I. Mohamed S. M. Abdel-Wahab N. I. Hegazi 《Biology and Fertility of Soils》1998,27(4):335-341
Rhizobium-legume symbioses are important for their nitrogen input, but salinity and elevated temperature in arid and semi-arid areas
limit their effectiveness, and therefore plant growth and productivity. Sixteen Rhizobium strains isolated from root nodules of Leucaena trees grown in different geographical areas of Egypt varied in their degree of tolerance to salinity and in their symbiotic
effectiveness with Leucaena
leucocephala under saline conditions. Three strains were tolerant to >3% NaCl. L.
leucocephala grown in the greenhouse at concentrations of NaCl up to 1.0% and inoculated either with strain DS 78 or strain DS 158 displayed
significantly better growth than those plants grown at the same levels of salinity and inoculated with reference strain TAL
583. Although nine of the Rhizobium strains grew at 42 °C, their mean generation times were lengthened two- to fourfold. When daylight growth temperatures were
elevated from 30 °C to 42 °C, nodule number and mass, nitrogenase activities and shoot top dry weight of plants inoculated
with strains DS 78, DS 157 and DS 158 significantly increased, whereas these parameters decreased in plants inoculated with
strain TAL 583. Rhizobium strains that effectively nodulate Leucaena under adverse saline conditions and at high temperatures were thus isolated, identified and characterized.
Received: 12 September 1997 相似文献
5.
Nitrification and denitrification are, like all biological processes, influenced by temperature. We investigated temperature
effects on N trace gas turnover by nitrification and denitrification in two soils under two experimental conditions. In the
first approach ("temperature shift experiment") soil samples were preincubated at 25 °C and then exposed to gradually increasing
temperatures (starting at 4 °C and finishing at 40–45 °C). Under these conditions the immediate effect of temperature change
was assessed. In the second approach ("discrete temperature experiment") the soil samples were preincubated at different temperatures
(4–35 °C) for 5 days and then tested at the same temperatures. The different experimental conditions affected the results
of the study. In the temperature shift experiment the NO release increased steadily with increasing temperature in both soils.
In the discrete temperature experiment, however, the production rates of NO and N2O showed a minimum at intermediate temperatures (13–25 °C). In one of the soils (soil B9), the percent contribution of nitrification
to NO production in the discrete temperature experiment reached a maximum (>95% contribution) at 25 °C. In the temperature
shift experiment nitrification was always the dominant process for NO release and showed no systematic temperature dependency.
In the second soil (soil B14), the percent contribution of nitrification to NO release decreased from 50 to 10% as the temperature
was increased from 4 °C to 45 °C, but no differences were evident in the discrete temperature experiment. The N2O production rates were measured in the discrete temperature experiment only. The contribution of nitrification to N2O production in soil B9 was considerably higher at 25–35 °C (60–80% contribution) than at 4–13 °C (15–20% contribution).
In soil B14 the contribution of nitrification to N2O production was lowest at 4 °C. The effects of temperature on N trace gas turnover differed between the two soils and incubation
conditions. The experimental set-up allowed us to distinguish between immediate effects of short-term changes in temperature
on the process rates, and longer-term effects by which preincubation at a particular temperature presumably resulted in the
adaptation of the soil microorganisms to this temperature. Both types of effects were important in regulating the release
of NO and N2O from soil.
Received: 20 October 1998 相似文献
6.
Effect of temperature on reduction of iron and production of carbon dioxide and methane in anoxic wetland rice soils 总被引:6,自引:0,他引:6
Wetland rice soils from Italy (Pavia) and the Philippines (Bugallon, Luisiana, Maligaya) were incubated under anoxic conditions
at 31 different temperatures ranging from 4.7 °C to 49.5 °C. Production of CO2 was most intensive at the beginning of the incubation (0–4 days) and was predominantly coupled to the reduction of free Fe(III).
The optimum temperature for these processes was between 32 °C and 41 °C. After 9–16 days, CO2 production rates had decreased and the available Fe(III) had been completely reduced at the optimum temperatures. However,
Fe(III) was still available at temperatures below and above the optimum. Maximum CH4 production rates were observed after 4–16 days (except in soil from Maligaya) with temperature optima between 32 °C and
41 °C, similar to those for CO2 production and Fe reduction. Since ongoing Fe reduction is known to suppress CH4 production, the temperature range of optimum CH4 production was restricted to those temperatures at which Fe(III) had already been depleted. Nevertheless, the temperature
characteristics of both CO2 and CH4 production often exhibited two temperature optima at some time during the incubation, suggesting a complex pattern of adaptation
of the methanogenic microbial community to temperature. When available Fe(III) was completely depleted by anoxic pre-incubation
at 30 °C, CH4 was produced at a constant rate (steady state conditions) which increased with increasing temperature. Steady state CH4 production reached a first maximum at about 40 °C, but increased further up to at least 50 °C, suggesting the presence
of thermophilic microorganisms whose activity was apparently masked when Fe had not been completely reduced. The apparent
activation energy of CH4 production at steady state ranged between 48 kJ mol–1 and 65 kJ mol–1.
Received: 26 August 1999 相似文献
7.
The effect of different residual bulking agents (paper, cardboard, grass clippings, pine needles, sawdust and food wastes) in mixtures with sewage sludge (1:1 dry weight) on the growth and reproduction of Eisenia andrei, Bouché 1972 was studied in smallscale laboratory experiments with batches of sixty earthworms. The maximum weight achieved and the highest growth rate were attained in the mixture with food waste (755±18 mg and 18.6±0.6 mg day−1 respectively) whereas the smallest size and the lowest growth rate was achieved in the mixture of sewage sludge with sawdust (572±18 mg and 11±0.7 mg day−1 respectively). The earthworms showed much higher reproductive rates in the paper and cardboard mixtures (2.82±0.39 and 3.19±0.30 cocoons earthworm−1 week−1 respectively) compared to the control with sewage sludge alone (0.05±0.01 cocoons earthworm−1 week−1). 相似文献
8.
Earthworm growth is affected by fluctuations in soil temperature and moisture and hence, may be used as an indicator of earthworm activity under field conditions. There is no standard methodology for measuring earthworm growth and results obtained in the laboratory with a variety of food sources, soil quantities and container shapes cannot easily be compared or used to estimate earthworm growth in the field. The objective of this experiment was to determine growth rates of the endogeic earthworm Aporrectodea caliginosa (Savigny) over a range of temperatures (5–20 °C) and soil water potentials (−5 to−54 kPa) in disturbed and undisturbed soil columns in the laboratory. We used PVC cores (6 cm diameter, 15 cm height) containing undisturbed and disturbed soil, and 1 l cylindrical pots (11 cm diameter, 14 cm height) with disturbed soil. All containers contained about 500 g of moist soil. The growth rates of juvenile A. caliginosa were determined after 14–28 days. The instantaneous growth rate (IGR) was affected significantly by soil moisture, temperature, and the temperature×moisture interaction, ranging from −0.092 to 0.037 d−1. Optimum growth conditions for A. caliginosa were at 20 °C and −5 kPa water potential, and they lost weight when the soil water potential was −54 kPa for all temperatures and also when the temperature was 5 °C for all water potentials. Growth rates were significantly greater in pots than in cores, but the growth rates of earthworms in cores with undisturbed or disturbed soil did not differ significantly. The feeding and burrowing habits of earthworms should be considered when choosing the container for growth experiments in order to improve our ability to extrapolate earthworm growth rates from the laboratory to the field. 相似文献
9.
The effects of biochar properties on crop growth are little understood. Therefore, biochar was produced from eight feedstocks
and pyrolyzed at four temperatures (300°C, 400°C, 500°C, 600°C) using slow pyrolysis. Corn was grown for 46 days in a greenhouse
pot trial on a temperate and moderately fertile Alfisol amended with the biochar at application rates of 0.0%, 0.2%, 0.5%,
2.0%, and 7.0% (w/w) (equivalent to 0.0, 2.6, 6.5, 26, and 91 t biochar ha−1) and full recommended fertilization. Animal manure biochars increased biomass by up to 43% and corn stover biochar by up
to 30%, while food waste biochar decreased biomass by up to 92% in relation to similarly fertilized controls (all P < 0.05). Increasing the pyrolysis temperature from 300°C to 600°C decreased the negative effect of food waste as well as
paper sludge biochars. On average, plant growth was the highest with additions of biochar produced at a pyrolysis temperature
of 500°C (P < 0.05), but feedstock type caused eight times more variation in growth than pyrolysis temperature. Biochar application rates
above 2.0% (w/w) (equivalent to 26 t ha−1) did generally not improve corn growth and rather decreased growth when biochars produced from dairy manure, paper sludge,
or food waste were applied. Crop N uptake was 15% greater than the fully fertilized control (P < 0.05, average at 300°C) at a biochar application rate of 0.2% but decreased with greater application to 16% below the N
uptake of the control at an application rate of 7%. Volatile matter or ash content in biochar did not correlate with crop
growth or N uptake (P > 0.05), and greater pH had only a weak positive relationship with growth at intermediate application rates. Greater nutrient
contents (N, P, K, Mg) improved growth at low application rates of 0.2% and 0.5%, but Na reduced growth at high application
rates of 2.0% and 7.0% in the studied fertile Alfisol. 相似文献
10.
Domínguez-Crespo Miguel A. Sánchez-Hernández Z. Erika Torres-Huerta Aidé M. Negrete-Rodríguez Ma. de la Luz X. Conde-Barajas Eloy Flores-Vela Abelardo 《Water, air, and soil pollution》2012,223(2):915-931
In order to enhance the removal of heavy metals such as Ni, Cu, Zn and Cd from wastewater, different cow dung/sewage sludge
ratios were tested to assess the effect of these metals on the adaptability of Eisenia fetida earthworms to the treatment process carried out in a typical plant located in Tamaulipas, Mexico. Two experimental water
treatment setups were proposed. The first set of experiments was planned to determine the adequate sewage sludge/cow dung
ratio(s), whereas the second arrangement was designed to evaluate the growth performance and fecundity of the earthworms under
high heavy metal concentrations. To achieve the objectives, the experiments were conducted for 90 days under controlled environmental
conditions. Maximum worm biomass and growth rates were attained in samples containing 25 wt.% of sewage sludge. Weight and
mortality of worms were significantly affected by the high levels of heavy metals, making difficult the metal accumulation
in the worm tissues. 相似文献
11.
The Ultuna long-term soil organic matter experiment in Sweden (59′82° N, 17′65° E) was started in 1956 to study the effects
of different N fertilisers and organic amendments on soil properties. In this study, samples were taken from 11 of the treatments,
including unfertilised bare fallow and cropped fallow, straw with and without N addition, green manure, peat, farmyard manure,
sawdust, sewage sludge, calcium nitrate and ammonium sulphate, with n = 4 for each treatment. Samples were taken from topsoil (0–20 cm) and subsoil (27–40 cm depth) and analysed for concentrations
of phospholipid fatty acids (PLFAs), organic C, total N and pH. The results showed that the subsoil samples reflected the
total PLFA content of the topsoil, but not the microbial community structure. Total PLFA content was well correlated with
total organic C and total N in both topsoil and subsoil. Total PLFA content in topsoil samples was highest in the sewage sludge
treatment (89 ± 22 nmol PLFA g dw−1). This contradicts earlier findings on microbial biomass in this sewage sludge-treated soil, which indicated inhibition of
microorganisms, probably by heavy metals added with sludge. A switch towards microbial growth and faster decomposition of
organic matter occurred around 2000, coinciding with lowered heavy metal content in the sludge. According to the PLFA data,
the microbial community in the sewage sludge treatment is now dominated by Gram-positive bacteria. A lack of Gram-negative
bacteria was also observed for the ammonium sulphate treatment, obviously caused by a drop in pH to 4.2. 相似文献
12.
Earthworms are important members of the decomposer food web in a wide range of sites. Previous field investigations on the development of earthworm populations of mine soils in the Lusatian coal mining region, Germany, have shown quite small population densities in quaternary sands and less or even no earthworms present in sandy soils derived from tertiary deposits. The aim of the present investigation was to improve the development of earthworm populations in mine soils from tertiary deposits by applying various types and amounts of organic waste residues, such as sewage sludge, composted sewage sludge, and green waste derived compost. Additionally, we were interested in the stimulation effect of organic waste materials on parameters of earthworm activity, such as food consumption and burrowing activity. The investigations were carried out in field mesocosms and laboratory experiments (microcosms; observation cages). In general, the population density, fresh biomass, food consumption, and the burrowing activity of earthworms were significantly improved by the application of the various organic waste materials compared with mineral fertilizers. Fresh sewage sludge in addition to composted sewage sludge were found to be the most favourable organic waste residues compared with green waste derived composts. The addition of brown coal sludge to sewage sludge did not reduced the stimulation effect. There was considerable variation in the population structure of a defined earthworm community which was exposed in the mesocosms during a two year period in relation to the types and amounts of the organic waste materials applied. 相似文献
13.
Phosphorus mineralization and microbial biomass in a Florida Spodosol: effects of water potential, temperature and fertilizer application 总被引:1,自引:0,他引:1
Phosphorus mineralization and microbial biomass were measured in the surface 5 cm of a Spodosol (sandy, siliceous hyperthermic
Ultic Alaquod) from north-central Florida. Soils from fertilized and unfertilized plantations of loblolly pine (Pinus taeda L.) were incubated at a range of water potentials (∼0, –3, –8, –10 and –1500 kPa) and temperatures (15 °C, 25 °C and 38 °C)
for 14 days and 42 days. Increasing water potential and temperature increased specific P mineralization (mineralization expressed
as a percentage of total P) regardless of fertilizer treatment. An increase in water potential from –10 kPa to –0.1 kPa resulted
in an increase of between 38% and 239% in the concentration of KCl-extractable inorganic P, depending on incubation temperature
and time. An increase in incubation temperature from 15 °C to 38 °C resulted in an increase of between 13% and 53% in KCl-extractable
inorganic P. Changes in specific P mineralization with change in water potential or temperature were not affected by fertilizer
application. This suggests that, although specific P mineralization was greater in the fertilized soils, environmental control
of P mineralization was the same for both treatments. Specific P mineralization was most sensitive when soils were at higher
water potentials, and decreased logarithmically to water potentials of between –3 kPa and –8 kPa. Specific P mineralization
was relatively insensitive to changes in water potential when water potential was lower than –8 kPa. Microbial biomass C showed
no consistent responses to changes of temperature or water potential and was not significantly correlated with specific P
mineralization. Our results suggest that field estimates of P mineralization in these Spodosols may be improved by accounting
for changes in soil water potential and temperature.
Received: 30 October 1997 相似文献
14.
Effects of time and temperature on the bioavailability of Cd and Pb from sludge-amended soils 总被引:3,自引:0,他引:3
A pot experiment was conducted to compare the behaviour and bioavailability of Cd and Pb from two soils mixed with sewage sludge at three rates (0, 50 and 150 t ha?1) and maintained at two contrasting ambient temperatures (15°C and 25°C) over a period of one year following the treatments. Ryegrass (Lolium perenne) accumulated Cd and Pb in the sewage sludge treated soils, although accumulation was significantly lower in the soils treated at the high rate (150 t ha?1) compared to the low rate (50 t ha?1). Ryegrass grown in the warm environment (25°C) accumulated significantly higher levels of Cd and Pb than that grown in cooler conditions (15°C). Samples of the soils spiked with nitrate salts of Cd and Pb at equivalent rates of metal loading resulted in the ryegrass accumulating much higher levels of both the metals than on the sludge treated soils. Metal uptake by the ryegrass from the sludge treatments increased over successive harvests while that from metal salt treatments decreased. The observed trend of increasing plant metal uptake over time coincided with a trend of decreasing pH in the sludge treatments. However, the concentrations of Cd and Pb extracted by DTPA failed to predict the changes in plant metal uptake. The importance of sewage sludge as both a source and a sink of pollutant metals and the trend of increasing bioavailability over time shown by this experiment are discussed. 相似文献
15.
Long-term studies are essential to learn earthworm community development and soil formation post reclamation. Investigations were undertaken at a former steelworks site at Hallside, near Glasgow, UK, reclaimed in the 1990s using a mixture of colliery spoil and sewage sludge. The site was largely planted for production of short rotation coppice willow (Salix spp.). Earthworm inoculation formed a part of the restoration process. Minimal monitoring occurred in the interim, but some records of earthworm sampling existed in 2000 and 2005. This study focused on monitoring earthworms and soil properties across the site, drawing comparisons with adjacent unspoiled soil. Results showed that after 22 years, a species-rich community of earthworms (n=16) colonized the site, with endogeic Aporrectodea caliginosa being dominant by number and anecic A. longa by mass. Across the site, earthworm community density and biomass were 208 individuals m-2 and 71 g m-2, respectively. The Shannon diversity index for earthworms was 1.89, with an evenness of 0.68. The sewage sludge increased the soil organic matter, but the stone content of the colliery spoil prevented digging in some locations. Soil chemistry had no negative effect on earthworms, but the compacted substrate did hinder water infiltration. Earthworms colonized the reclaimed site from adjacent areas, and community structure and density below well-drained, scrub-free willow, birch, and grassland were not significantly different (P>0.05) from those of the adjacent unspoiled areas. The results show that the historical earthworm inoculation was unnecessary and badly timed. Future reclamations of similar sites can learn from this investigation. 相似文献
16.
C. Van Nieuwenhove L. Van Holm S. A. Kulasooriya K. Vlassak C. Van Nieuwenhove L. Van Holm 《Biology and Fertility of Soils》2000,31(2):143-149
Azorhizobium caulinodans strongly colonized the rhizosphere of rice plants after incorporation of Sesbania rostrata in a field trial throughout the growing season and during the fallow period until 19 weeks after incorporation of S. rostrata. A. caulinodans became well established in the rhizosphere (7.17 log cfu g–1 dry rice root) and colonized subsequent S. rostrata test plants. Three traditional and three improved high-yielding rice varieties were inoculated with A. caulinodans under gnotobiotic conditions. In none of the combinations did acetylene reduction activity significantly increase. Ethylene
production on colonized rice roots only started after the growth medium had been supplemented with an extra C source (0.1
to 0.25% Na-lactate). This indicates that the bacterial nitrogenase activity is limited by energy supply. Four possible inoculant-carriers
(peat, coir dust, bagasse, rice straw) were compared for long-term survival of the bacterial strain. Independent of the storage
temperature (26 °C or 4 °C), the survival of A. caulinodans in peat and coir dust was very high during a 12-month period (>8 log cfu g–1 dry carrier), whereas the bagasse and rice straw carriers showed a serious decline from 3 months onwards.
Received: 6 April 1999 相似文献
17.
Reed beds with Phragmites australis (common reed) have been utilized to decrease the water, nutrient, and volatile solids content of sewage sludge. An efficient disposal/reuse option was sought for reed bed biosolids accumulated over a 15-year period at a wastewater treatment facility in New Jersey, USA. The study facility had 14 reed beds, each with 1000 wet tons capacity, which were full, and so the solids needed to be removed. Because P. australis is considered an invasive species in New Jersey and several other states in the United States, disposal or reuse of solids containing this plant is regulated. Composting was examined as a potential treatment for destroying the plant's reproductive rhizomes. The high temperatures achieved during composting were also tested to determine if regulatory criteria for pathogen reduction could be met, making the composted product suitable for unrestricted land application. Preliminary studies indicated the sludge had stabilized to the point where self-heating did not occur. Among the carbon amendments tested in the laboratory to stimulate compositing activity, Phragmites above-ground biomass was determined to be most suitable. In a field test, Phragmites above-ground biomass was mixed with reed bed biosolids at a 1:2 (w/w) ratio. The temperatures achieved resulted in complete mortality of Phragmites rhizomes. In laboratory tests, rhizomes placed in a drying oven at 50°C for 24 h, or 55°C for 12 h, showed 100% plant mortality. However, under field conditions pile temperatures could not be maintained long enough for the sludge to meet the USEPA 503 biosolids time-temperature pathogen rule requirements for unrestricted land application, even though sample fecal coliform counts did meet regulatory limits. 相似文献
18.
In alpine areas, shifts in traditional grazing activities are globally affecting ecosystem properties and rural livelihoods. The ongoing decrease in extensive husbandry, with a decline in sheep numbers and a relative increase in cattle stocking rates, has resulted in the abandonment of large alpine grazing areas. This pastoral change has been recently associated with increased disturbances of wild boar (Sus scrofa), mainly within cattle-stocked ranges. In turn, cattle areas favor earthworm communities, a preferred trophic resource for wild boars in mountain environments. However, it is unknown whether wild boar disturbances, together with grazing activities, can affect earthworm communities. Our aim is to analyze the abundance, richness and ecological categories of earthworms and soil parameters (soil C and N concentrations, moisture, and C:N ratio) in relation to the occurrence of wild boar disturbances and grazing activities at different stocking pressures. We sampled two different grazing scenarios differing in the distribution of cattle along a grazing gradient, which was represented by three levels of stocking pressure (high, intermediate and low). Our results showed a complex effect of grazing activities and disturbances on the abundance and richness of earthworms, along with variations in C:N ratio and soil moisture, especially with increasing cattle presence. At high-stocking pressures differences in earthworm abundance and richness between disturbed and undisturbed areas were limited, whereas at intermediate-stocking pressures earthworms were favored by wild boar disturbances. Ecological categories of earthworms responded differently; endogeic species were the most affected by grazing pressures and wild boar rooting, with highest occurrence at high-stocking pressures and within boar disturbed areas. In sum, pastoral use and soil disturbances affected earthworm community structure and composition in complex ways. These results indicate an interaction of processes that is relevant to understand current changes in alpine ecosystems. 相似文献
19.
采用塑料温棚内垄式堆积污泥培养蚯蚓方式,研究了蚯蚓处理对污泥重金属的影响。结果表明,污泥经蚯蚓处理后,理化性质发生了显著的变化,污泥的pH值、有机质、总氮和总磷都有不同程度的降低;蚯蚓能吸收富集污泥中的重金属,其中对重金属Cd有较强的富集能力;蚯蚓处理使污泥中重金属含量均出现不同程度的下降,重金属Cr、Zn、Pb、Cd、Cu、Ni分别减少27.98%、31.46%、32.81%、13.85%、23.86%和22.92%。利用盆栽试验,研究了污泥施用于土壤后生菜体内重金属积累的情况,结果表明,生菜体内重金属Zn、Cu、Pb和Ni的含量为污泥处理高于蚓粪处理;Cr和Cd则分别为差异不显著和略有降低。 相似文献
20.
Dynamics of Organic C Mineralization and the Mobile Fraction of Heavy Metals in a Calcareous Soil Incubated with Organic Wastes 总被引:2,自引:0,他引:2
Organic wastes such as sewage sludge and compost increase the input of carbon and nutrients to the soil. However, sewage sludge-applied heavy metals, and organic pollutants adversely affect soil biochemical properties. Therefore, an incubation experiment lasting 90 days was carried out to evaluate the effect of the addition of two sources of organic C: sewage sludge or composted turf and plant residues to a calcareous soil at three rates (15, 45, and 90 t of dry matter ha–1) on pH, EC, dissolved organic C, humic substances C, organic matter mineralization, microbial biomass C, and metabolic quotient. The mobile fraction of heavy metals (Zn, Cd, Cu, Ni, and Pb) extracted by NH4NO3 was also investigated.The addition of sewage sludge decreased soil pH and increased soil salinity to a greater extent than the addition of compost. Both sewage sludge and compost increased significantly the values of the cumulative C mineralized, dissolved organic C, humic and fulvic acid C, microbial biomass C, and metabolic quotient (qCO2), especially with increasing application rate. Compared to compost, the addition of sewage sludge caused higher increases in the values of these parameters. The values of dissolved organic C, fulvic acid C, microbial biomass C, metabolic quotient, and C/N ratio tended to decrease with time. The soil treated with sewage sludge showed a significant increase in the mobile fractions of Zn, Cd, Cu, and Ni and a significant decrease in the mobile fraction of Pb compared to control. The high application rate of compost resulted in the lowest mobility of Cu, Ni, and Pb. The results suggest that biochemical properties of calcareous soil can be enhanced by both organic wastes. But, the high salinity and extractability of heavy metals, due to the addition of sewage sludge, may limit the application of sewage sludge. 相似文献