Seasonal variation in extracted proteases and relationship to overall soil protease and exchangeable ammonia in paddy soils     

K. Watanabe  K. Hayano 《Biology and Fertility of Soils》1996,21(1-2):89-94

In paddy fields treated with organic manure or chemical fertilizer or not treated, seasonal changes in soil protease [hydrolysis to benzyloxycarbonyl-l–phenyl-alanyl-l–leucine (z-FLase) or casein (caseinase)] extracted with phosphate buffer were investigated during the cultivation of rice. Both activities reached a maximum on July 21 (after irrigation), and gradually decreased, which was correlated with the soil water content. Increases in z-FLase and caseinase activity extracted coincided with increases in exchangeable NH ₄ ⁺ and the ninhydrin-reactive N content. The overall soil caseinase activity on August 16 (after midsummer drainage) was inhibited by metal chelators and p–chloromercuribenzoic acid and was similar to that extracted with 1.0 mol l^–1 phosphate buffer on June 9 (before irrigation), but different from that extracted by 0.1 mol l^–1 phosphate buffer on July 22. The overall soil z-FLase activity on August 16 was inhibited by p–chloromercuribenzoic acid and 1,10-phenanthroline, and was similar to that extracted with 0.1 mol l^–1 phosphate buffer on June 9, but differed from that extracted on July 22. The results indicate that the soil proteases extracted on July 22 had a high potential for ammonification and were short lived.  相似文献   

Mechanisms of production of soil protease by proteolytic Bacillus subtilis in wetland rice soil     

K. Watanabe  K. Hayano 《Biology and Fertility of Soils》1996,21(1-2):109-113

In sterile soil inoculated with proteolytic Bacillus subtilis, the correlation between variations in protease activity and cell numbers was investigated during incubation, and the results were compared with those obtained in different growth media. In sterile soil inoculated with B. subtilis, the extracted soil z-FLase activity (hydrolytic activity towards benzyloxycarbonyl-L-phenylalanyl-L-leucine extracted with 0.1 M phosphate buffer) was correlated with the extracted soil protein content (r=0.95; P<0.01) and the number of vegetative cells (r=0.88, P<0.05), while the extracted soil caseinase activity was well correlated with the number of spores (r=0.82, P<0.05) and not with the number of vegetative cells. Extracellular z-FLase activity in different growth media, inoculated with the proteolytic B. subtilis, was correlated with the extracellular protein concentration (r=0.73, P<0.01) and the number of cells (r=0.73, P<0.01), but extracellular caseinase activity was not correlated with either of these measurements. From these results, we concluded that soil z-FLase production might relate to vegetative growth of the proteolytic B. subtilis and soil caseinase might relate to B. subtilis sporulation.  相似文献   

Influence of 2-chloro-6 (trichloromethyl) pyridine and dicyandiamide on nitrous oxide emission under different soil conditions     

《Soil Science and Plant Nutrition》2013,59(2):226-232

Abstract

Two experiments were conducted to evaluate the inhibitory effects of 2-chloro-6 (trichloromethyl) pyridine (nitrapyrin) and dicyandiamide on nitrous oxide (N₂O), a greenhouse gas, emission from soils amended with ammonium sulfate. In the two experiments, samples of an Andosol and a Gray Lowland soil were kept in glass vessels sealed with a butyl rubber cap and incubated at 25°C. In the first experiment, nitrapyrin (1 µg g^?1 dry soil) and dicyandiamide (10 µg g^?1 dry soil) were applied to samples of a water-saturated Andosol and a Gray Lowland soil to which ammonium sulfate had been applied at a rate of 0.1 mg N g^?1 dry soil. Nitrapyrin decreased N₂O emissions from the Andosol and the Gray Lowland soil by 71% and 24%, respectively. Dicyandiamide decreased N₂O emissions from the Andosol and Gray Lowland soil by 31% and 18%, respectively. In the second experiment, nitrapyrin (1 µg g^?1 dry soil) was applied to samples of an Andosol at 51% water-filled pore space to which ammonium sulfate had been applied at rates of 0.01, 0.1 and 0.5 mg N g^?1 dry soil. Nitrapyrin decreased N₂O emissions by 62%, 83% and 74%, respectively. Changes in the NH⁺ ₄ and NO^? ₂ + NO^? ₃ concentrations in soil showed that nitrapyrin and dicyandiamide slowed down the nitrification process, but did not completely stop the process at any time. The results reveal the potential of nitrification inhibitors to decrease N₂O emission from fertilized soil in a wide range of moisture conditions and nitrogen levels.  相似文献   

Comparison of N2O and CO2 concentrations and fluxes in the soil profile between a Gray Lowland soil and an Andosol     

《Soil Science and Plant Nutrition》2013,59(1):186-199

Abstract

We measured nitrous oxide (N₂O) and carbon dioxide (CO₂) fluxes from the soil surface and in the soil through to a depth of 0.3?m, and their concentration profiles through to a depth of 0.6?m in both a Gray Lowland soil with macropores and cracks and an Andosol with undeveloped soil structure in central Hokkaido, Japan. The objective of the present study was to elucidate any differences in N₂O production and flux in the soil profile between these two soil types. In the Gray Lowland soil, the N₂O concentration above 0.4?m increased with an increase in soil depth. In the Andosol, there were no distinctive N₂O concentration gradients in the topsoil when the N₂O flux did not increase. However, the N₂O concentration at a depth of 0.1?m significantly increased and this concentration was higher than the concentration below 0.2?m when the N₂O flux greatly increased. Thus, the N₂O concentration profiles were different between these two soils. The contribution ratios of the N₂O produced in the top soil (0–0.3?m depth) to the total N₂O emitted from the soil to the atmosphere in the Gray Lowland soil and the Andosol were 0.86 and 1.00, respectively, indicating that the N₂O emitted from the soil to the atmosphere was mainly produced in the top soil. However, the contribution ratio of the subsoil to the N₂O emitted from the Gray Lowland soil was higher than that of the Andosol. There was a significant positive correlation between the N₂O flux through to a 0.3?m depth and the flux from the soil to the atmosphere in the Gray Lowland soil only. These results suggest that N₂O production in the subsoil of the Gray Lowland soil could have been activated by NO₃ ^? leaching through macropores and cracks, and subsequently the N₂O produced in the subsoil could have been rapidly emitted to the atmosphere through the macropores and cracks.  相似文献   

Soil Phosphorus Extracted by Three Anion Exchange Membranes Compared to Water-Soluble and Truog-Extractable Phosphorus     

《Communications in Soil Science and Plant Analysis》2012,43(22):3231-3234

Effects of different kinds of anion exchange membrane (AEM) on soil P extracted by AEM (AEM P) were investigated in three soils (Cumulic Andosol, Yellow soil, and Gray Lowland soil). There was no significant difference in AEM P among the AEMs tested (BDH-Prolabo 551642S, AGC Engineering Selemion AMT, and AGC Engineering Selemion AMV). The AEM P was greater than water-soluble P in all soils. Although AEM P was greater than Truog-extractable P in Cumulic Andosol, the reverse was true in the Yellow soil and Gray Lowland soil.  相似文献   

Role of soil organic matter in stabilization of water-stable aggregates in Soils under different types of land use     

Gang Lu  Kan-ichi Sakagami  Haruo Tanaka  Ryunosuke Hamada 《Soil Science and Plant Nutrition》2013,59(2):147-155

Three Andosols (used as grassland, upland field, and paddy field) and two Gray Lowland soils (used as upland field and paddy field) were examined to study the role of organic matter in the stabilization of soil aggregates. It was found that prolonged use of Andosols as grassland or as upland field enabled to maintain a higher level of soil organic carbon than use as paddy field. However, paddy soil exhibited a greater aggregate stability (determined by wet-sieving procedure) than soil under upland field or grassland management. Comparison between two Gray Lowland soils also showed that aggregates in the paddy soil were more stable than in the upland field soil. Among organic constituents examined (such as sodium pyrophosphate (SPP)-extractable organic matter and carbohydrates), only the contents of hot water (HW)-extractable carbohydrates of the soils were significantly correlated with aggregate stability. Paddy soils which showed a greater aggregate stability contained a larger amount of HW -extractable carbohydrates in the soils, and a larger amount of HW -extractable carbohydrates regardless of the size of their aggregates compared with other soils. These findings suggest that HW -extractable carbohydrates which represents easily decomposable organic materials may be of special importance for the stabilization of aggregates in the soils.  相似文献   

Effect of the application of polluted wheat (Triticum aestivum L. Thell.) straw during plowing on the transfer of radiocesium from the soil to komatsuna (Brassica rapa L. var. perviridis)     

Naoto Nihei  Shigeto Fujimura  Keitaro Tanoi  Nobuo Yamashita  Sho Morimoto  Tomoko M. Nakanishi 《Soil Science and Plant Nutrition》2016,62(2):117-120

Radioactive substances were released into the environment after the nuclear accident at the Fukushima Daiichi Nuclear Power Station; this led to the contamination of the soil at Fukushima Prefecture. Mixing of organic matter with soil during plowing is known to influence radiocesium (¹³⁴Cs and ¹³⁷Cs) absorption by crops. However, the effect of mixing organic matter polluted by radioactive substances during plowing on radiocesium absorption by plants is not yet known. The aim of this study was to investigate the effect on the radiocesium absorption by komatsuna (Brassica rapa L. var. perviridis) cultivated in a 45-L container containing Andosol (14,300 Bq kg^?1) or Gray Lowland soil (33,500 Bq kg^?1) mixed with polluted wheat (Triticum aestivum L. Thell.) straw (2080 Bq kg^?1). The radiocesium concentration of the plants and the soil and the amount of exchangeable radiocesium in the soil were determined using a germanium semiconductor. The transfer of radiocesium from the soil to plants decreased by 53 and 27% in Andosol and Gray Lowland soil, respectively, after the application of 10 t ha^?1 polluted wheat straw. This reduction in the level of radiocesium transfer might be attributed to potassium contained in the wheat straw, which might compete with cesium during membrane transport and thereby block the transport of cesium from the soil solution to the roots and from the roots to the shoots. Alternatively, the applied wheat straw probably absorbed radiocesium and decreased the amount of exchangeable radiocesium in the soil. Our findings suggest that the mixing of polluted wheat straw with contaminated soil might influence the absorption of radiocesium content by agricultural products. Further studies are warranted to determine the long-term effects of the application of polluted wheat straw on the rate of radiocesium transfer to crops.  相似文献   

砒砂岩中植物促生芽孢杆菌的筛选及其对土壤的改良作用   总被引：1，自引：0，他引：1  

邓琳  王涛  殷涂童  何琳燕  杨才千  梁止水 《水土保持通报》2019,39(5):211-217

[目的]筛选砒砂岩土壤中植物促生芽孢杆菌,为微生物强化植物改良砒砂岩土壤的科学设想提供资源和技术基础。[方法]以产生植物激素IAA(indole acetic acid)、铁载体和生物膜为筛选指标,从内蒙古砒砂岩区土壤和植物样品中筛选植物促生芽孢杆菌,采用盆栽试验探究植物促生芽孢杆菌改良砒砂岩土壤特性和促进苜蓿和黑麦草生长的作用。[结果]筛选到的12株芽孢杆菌产生IAA、铁载体和生物膜的能力不同,分别属于Bacillus halotolerans,B.atrophaeus,B.siamensis和B.zhangzhouensis种群。与对照相比,B.halotolerans P75能够显著增加砒砂岩土壤的有机质含量(24.7%)、速效磷含量(11.9%)和速效钾含量(21.0%)等养分指标,每1 g土壤可培养细菌达到7.4 lg CFU,土壤蔗糖酶活性显著增强(58.8%)。接种B.halotolerans P75后,在砒砂岩土壤中生长的苜蓿和黑麦草干重增加22.3%～81.5%,[结论]从生长于砒砂岩土壤的苜蓿根内筛选到B.halotolerans P75,可提高砒砂岩土壤肥力,促进苜蓿和黑麦草生长,具有强化植物改良砒砂岩土壤的潜力。  相似文献   

Turnover time of microbial biomass carbon in Japanese upland soils with different textures     

Kazunori Sakamoto  Naoko Hodono 《Soil Science and Plant Nutrition》2013,59(2):483-490

We investigated the turnover time of microbial biomass-C in Japanese upland soils with various textures and examined the soil physicochemical properties influencing their turnover time. Samples from five different soil types (sand-dune regosol, light-colored Andosol, humic Andosol, brown forest soil, and dark red soil) were taken from upland concrete-frame plots in the experimental field of Chiba University. Each soil amended with [U -¹³C] glucose was incubated for 80 d at 25°C. Microbial biomass-C and -¹³C in soil were periodically determined by the fumigation-extraction method. The longest turnover time of microbial biomass-C was observed in the dark red soil (215 d) followed by the humic Andosol (134 d), brown forest soil (97 d), and light-colored Andosol (83 d) and the shortest in the sand-dune regosol (45 d). The turnover time of microbial biomass-C was significantly correlated with the value of soil clay (R: 0.917*), CEC (R: 0.921*), and macroaggregate (R: 0.907*) contents, but not with the total-C content. The amount of microbial biomass-C showed a close correlation with the turnover time of microbial biomass-C, suggesting that the turnover time of microbial biomass-C is an important factor influencing the accumulation of microbial biomass-C in soil.  相似文献   

Denitrifying ability of indigenous strains of Bradyrhizobium japonicum isolated from fields under paddy-upland rotation     

Susumu Asakawa 《Biology and Fertility of Soils》1993,15(3):196-200

Summary In Japan some paddy fields are used for upland crops for several years and then returned to paddy fields (paddy-upland rotation). Soybeans (Glycine max L.) are an important summer crop. The ability to denitrify and some characteristics of denitrification by isolated strains of Bradyrhizobium japonicum were investigated to clarify the frequency of denitrifiers in indigenous populations of B. japonicum in fileds under paddyupland rotation. Eight field plots with different cropping systems at two sites were used. The fields consisted of a Gray Lowland Soil, and either soybeans or paddy rice (Oryza sativa L.) was grown as a summer crop, with barley (Hordeum distichum L.) or wheat (Triticum aestivum L.) as a winter crop. All B. japonicum strains present in the plots were able to denitrify. Isolated strains fell into two main groups (groups I and II) according to the rate of denitrification. Strains of group I evolved N₂O with C₂H₂ at a rate comparable to that of Alcaligenes denitrificans IAM 12370, whereas the denitrification activity of group II strains was 100 times lower than that of group I strains. Both group I and II strains occurred in each plot. Amounts of N₂O produced by indigenous strains with and without C₂H₂ suggested that strains of group I and II evolved N₂ or N₂O, respectively, as the end product of denitrification. One strain (S 107) that was isolated had the highest denitrifying ability with an end product of N₂O. These results indicate that indigenous bradyrhizobia may partly contribute to denitrification of field soil under a paddy-upland rotation.  相似文献   

Effect of plant growth-promoting bacteria and soil compaction on barley seedling growth, nutrient uptake, soil properties and rhizosphere microflora   总被引：3，自引：0，他引：3  

Mustafa Y. Canbolat  Serdar Bilen  Ramazan Çakmakçı  Fikrettin Şahin  Adil Aydın 《Biology and Fertility of Soils》2006,42(4):350-357

Inoculants are of great importance in sustainable and/or organic agriculture. In the present study, plant growth of barley (Hordeum vulgare) has been studied in sterile soil inoculated with four plant growth-promoting bacteria and mineral fertilizers at three different soil bulk densities and in three harvests of plants. Three bacterial species were isolated from the rhizosphere of barley and wheat. These bacteria fixed N₂, dissolved P and significantly increased growth of barley seedlings. Available phosphate in soil was significantly increased by seed inoculation of Bacillus M-13 and Bacillus RC01. Total culturable bacteria, fungi and P-solubilizing bacteria count increased with time. Data suggest that seed inoculation of barley with Bacillus RC01, Bacillus RC02, Bacillus RC03 and Bacillus M-13 increased root weight by 16.7, 12.5, 8.9 and 12.5% as compared to the control (without bacteria inoculation and mineral fertilizers) and shoot weight by 34.7, 34.7, 28.6 and 32.7%, respectively. Bacterial inoculation gave increases of 20.3–25.7% over the control as compared with 18.9 and 35.1% total biomass weight increases by P and NP application. The concentration of N and P in soil was decreased by increasing soil compaction. In contrast to macronutrients, the concentration of Fe, Cu and Mn was lower in plants grown in the loosest soil. Soil compaction induced a limitation in root and shoot growth that was reflected by a decrease in the microbial population and activity. Our results show that bacterial population was stimulated by the decrease in soil bulk density. The results suggest that the N₂-fixing and P-solubilizing bacterial strains tested have a potential on plant growth activity of barley.  相似文献   

Survival of inoculant Bradyrhizobium japonicum in an Andosol     

M. K. Menyah  K. Sato 《Biology and Fertility of Soils》1996,23(2):105-109

The survival of an antibiotic-resistant mutant of a commercial inoculant Bradyrhizobium japonicum strain, A1017ks, was studied in a volcanic ash soil (Andosol) in comparison with a non-volcanic ash soil (Fluvisol) over a period of 84 days. In a non-sterile soil system, the population decline in the Andosol (15% or 1.2 log units) was larger than in the Fluvisol (6% or 0.54 log units). In both soils, however, the inoculant bradyrhizobium survived at fairly high population levels after the period of incubation [10⁶ and 10⁷ colony-forming units (CFU) g^-1 dry soil in the Andosol and Fluvisol, respectively]. In sterile control soil, viable bradyrhizobium cells could not be detected after 1 week of incubation in the Andosol, whereas in the Fluvisol population of introduced bradyrhizobium was maintained throughout the period of incubation. Overall changes in the population of indigenous bacteria and fungi were also monitored. However, no clear pattern of interaction between the inoculant Bradyrhizobium japonicum and the indigenous microbes could be identified. The antibiotic-resistant mutant maintained its resistance in the Fluvisol throughout the 3-month period of incubation, making it a useful model for conducting ecological studies in the soil.  相似文献   

Testing the suitability of the Rothamsted Carbon model for long-term experiments on Japanese non-volcanic upland soils     

Yasuhito Shirato  Ichiro Taniyama 《Soil Science and Plant Nutrition》2013,59(6):921-925

We evaluated the suitability of the Rothamsted Carbon (RothC) model for long-term experiments on Japanese non-volcanic upland soils using 6 long-term experimental data sets: 2 Brown Lowland Soils, 2 Yellow Soils, 1 Gray Lowland Soil, and 1 Brown Forest Soil. The predicted changes in the content of soil carbon with time were very close to the observed values in almost all the treatments at all the 6 sites. These 6 sites were distributed from North to South across Japan and included a variety of climatic conditions, soil textures, and land management practices. We therefore concluded that the RothC model adequately simulated changes in the soil carbon content with time in Japanese non-volcanic upland soils.  相似文献   

Bacterial communities are more dependent on soil type than fertilizer type, but the reverse is true for fungal communities   总被引：1，自引：0，他引：1  

Chika SUZUKI  Kazunari NAGAOKA  Atuyuki SHIMADA  Makoto TAKENAKA 《Soil Science and Plant Nutrition》2009,55(1):80-90

The soil microbial community is strongly influenced by a wide variety of factors, such as soil characteristics and field management systems. In order to use biological indicators based on microbial community structure, it is very important to know whether or not these factors can be controlled. The present study aimed to determine whether soil type or fertilization has a greater influence on the soil microbial community based on denaturing gradient gel electrophoresis (DGGE) analysis of 12 experimental field plots containing four different soil types, Cumulic Andosol, Low-humic Andosol, Yellow Soil and Gray Lowland Soil, kept under three different fertilizer management systems since 2001 (the application of chemical fertilizer, the application of rice husk and cow manure, and the application of pig manure). Bacterial DGGE analysis using 16S rRNA genes and fungal DGGE analysis using 18S rRNA genes revealed that the bacterial community was related to the soil type more than the fertilization; however, the fungal community was related to the fertilization more than the soil type. These results might suggest that the fungal community is easier to control by fertilization than the bacterial community. Thus, we propose that indicators based on the fungal community might be more suitable as microbial indicators for soil quality.  相似文献   

Influence of irrigation on the distribution and control of the nematode Meloidogyne javanica by the biocontrol bacterium Pasteuria penetrans in the field     

Kounbobr Roch Dabiré  Saliou Ndiaye  Jean-Luc Chotte  Sabine Fould  Mamadou Thiam Diop  Thierry Mateille 《Biology and Fertility of Soils》2005,41(3):205-211

Pasteuria penetrans, a bacterial parasite of plant-parasitic nematodes, is used to control root-knot nematode Meloidogyne spp. populations in vegetable crops. But its efficiency is variable, mostly because of the patchy distribution of the bacteria in arable fields. As the infective P. penetrans are non-motile bacteria in soil, abiotic soil factors can affect the bacteria–nematode relationships. An epidemiological study, conducted in a vegetable field, showed that abiotic factors such as irrigation, soil water holding capacity and texture, affected the efficiency of P. penetrans. A correspondence analysis between these abiotic factors and the density of P. penetrans spores in the soil, and the proportion of Meloidogyne javanica juveniles infected by the bacteria, revealed that irrigation affected directly the distribution of the spores in soil pores related to their passive transport by water flow. Laboratory experiments conducted on the passive transport of spores confirmed that intensive irrigation leached the spores down the soil profile and decreased the percentage of infected Meloidogyne juveniles.  相似文献   

Activity of protease extracted from rice-rhizosphere soils under double cropping of rice and wheat     

Koichi Hayano  Katsuji Watanabe  Susumu Asakawa 《Soil Science and Plant Nutrition》2013,59(3):597-603

Abstract

Protease-active extracts were prepared from 2 rice-rhizosphere and non-rhizosphere soil samples 3 proteolytic isolates from the soil samples which were taken from water logged paddy fields (Gray Lowland Soils) under double cropping of rice and wheat that had been treated with chemical fertilizer (CF) or organic manure (OM). The activities were assayed and characterized using an artificial substrate, benzyloxycarbonyl-L-phenylalanyl-L-tyrosyl-L-leucine (ZFTL). The protease-active extracts from the rhizosphere and non-rhizosphere of the CF and OM soils (abbreviated as CFR, CFN, OMR, and OMN) showed an optimum pH between 7 and 8. The extracts hydrolyzed ZFTL to Tyr-Leu and Leu; generally, Tyr-Leu was the main reaction product. Activities of all the samples were inhibited by EDTA and p-chloromercuribenzoic acid (PCMB) but not by pepstatin and phenylmethanesulfonyl fluoride (PMSF). These results indicate that the main components of the ZFTL-hydrolases in CFR, CFN, 0MR, and OMN were essentially similar.

Optimum pH for the activity of the protease extracted from a Gram negative rod (MNB003)., two actinomycetous isolates (MNA014., MRA017) was about 8, 8, and 8.5, respectively. Extract from the culture of MNB003 hydrolyzed ZFTL to Tyr-Leu., Leu,., the protease activity was inhibited by EDTA., PCMB. Protease activities of the extracts from cultures of the two actinomycetes were inhibited by EDTA but not by PCMB. The extract from culture of MNA014 produced mainly Tyr-Leu from ZFTL while MRA017 produced Leu. Characteristics of the protease activity from cultures of MNB003., MNA014 were similar to those of the enzyme extracted from a paddy field soil under single cropping (Takeuchi., Hayano 1994: Soil Sci. Plant Nutr., 40, 691-695) and from an Andosol under tomato cultivation (Hayano et al. 1987: Biol. Fertil. Soils, 4, 179-183), respectively.  相似文献   

Soil suppressiveness and functional diversity of the soil microflora in organic farming systems   总被引：1，自引：0，他引：1  

Joeke Postma  Mirjam T. Schilder  Jaap Bloem  Wiepie K. van Leeuwen-Haagsma 《Soil biology & biochemistry》2008,40(9):2394-2406

Arable fields of 10 organic farms from different locations in The Netherlands were sampled in three subsequent years. The soil samples were analysed for disease suppressiveness against Rhizoctonia solani AG2.2IIIB in sugar beet, Streptomyces scabies in radish and Verticillium longisporum in oilseed rape. In addition, a variety of microbial, chemical and physical soil characteristics were assessed. All data were correlated by multiple regression and multivariate analyses with the objective to find correlations between soil suppressiveness and biotic or abiotic soil characteristics. Significant differences in soil suppressiveness were found between the fields for all three diseases. Multiple regression indicated a significant correlation between suppressiveness against Rhizoctonia and the number of antagonistic Lysobacter spp., as well as with % active fungi and bacterial diversity. Grass-clover stimulated Rhizoctonia suppression as well as the presence of antagonistic Lysobacter spp. (mainly L. antibioticus and L. gummosus) in clay soils. Streptomyces suppression correlated with the number of antagonistic Streptomyces spp., % of active fungi and bacterial population size. The presence of antagonistic Streptomyces spp. correlated with a high fungal/bacterial biomass ratio. Verticillium suppression was only measured in 2004 and 2005, due to the inconsistent suppressiveness along the years. Nevertheless, a significant correlation with pH, potential nitrogen mineralization and bacterial biomass was found. Bacterial and fungal PCR-denaturing gel electrophoresis fingerprinting of bacterial and fungal communities, in general, did not significantly correlate with disease suppression. Highly significant explanatory factors of the composition of the dominating bacterial and fungal populations were % lutum, pH, C/N quotient, biomass and growth rate of bacteria. Additionally, the % of organic matter and years of organic farming were explaining significantly the composition of the bacterial population.Thus, significant correlations between several soil characteristics and suppressiveness of different soil-borne pathogens were found. For two of the three pathogens, suppression correlated with biotic soil characteristics combined with the presence of specific bacterial antagonists. Probably the soil suppressiveness measured in the organic fields is a combined effect of general and specific disease suppression.  相似文献   

Ecological study on the dynamics of soil organic matter and its related properties in shifting cultivation systems of Northern Thailand     

Shinya Funakawa  Sota Tanaka  Hitoshi Shinjyo  Thammanoon Kaewkhongkha  Tomoo Hattori  Koyo Yonebayashi 《Soil Science and Plant Nutrition》2013,59(3):681-693

Abstract

There is a large number of hill people in northern Thailand, who practices shifting cultivation. In order to analyze the soil ecological problems involved in the transition from traditional shifting cultivation to more intensive upland farming, the authors carried out comparative studies on the dynamics of organic matter and its related properties in soils both in the traditional shifting cultivation systems adopted by Karen people and more intensive upland farming practiced by Thai and Hmong people in the area. The contents of organic matter and available N in the surface 10 cm layers of soil from the fields continuously cultivated were lower than those in soils under prolonged fallow (more than 10 y) or natural forest. Based on the rate of soil respiration, the amount of organic matter decomposed within 1 y was estimated to reach nearly 10% of that stored in the upper 50 cm layers of the soil profile in the upland crop fields. These results indicate that the organic matter-related resources markedly decreased under continuous cropping. The contents of C, N, and P in the microbial biomass of the surface 10 cm layers of soil ranged from 0.37 to 2.09 mg C g^?l soil, from 22.7 to 188 µg N g^?l soil, and from 6.1 to 65.7 µg P g^?l soil, respectively. Since the contents of microbial C, N, and P in the surface soils were generally higher under prolonged fallow and natural forests than in the fields continuously cultivated, the microbial activity and/or the amounts of C, N, and P available for biological activity seemed to have declined under continuous upland farming. The incubation experiment to assess the N mineralization pattern showed two remarkable characteristics: 1) there was an initial time lag until active mineralization of N occurred in the soils from young fallow forest and 2) the soil burning effect was observed after burning in the fields under prolonged fallow. The active process of nitrification after N mineralization was always associated with a sharp fall in soil pH, suggesting that soil acidification was promoted and basic cations were lost from the soils. In conclusion, rapid deterioration of the soil organic matter-related properties in cropping fields can be considered to be one of the ecological reasons why upland fields must be returned to fallow again a few years after forest reclamation in traditional shifting cultivation systems. Therefore, in alternative farming systems with more intensive land use, it is essential to apply organic materials into soils to decrease the rate of soil degradation, or to improve the soil fertility, in avoiding soil acidification along with nitrification.  相似文献   

解磷、钾功能性微生物耐盐效应研究   总被引：1，自引：0，他引：1  

耿丽平  范俊  王婧瑶  赵全利  薛培英  刘文菊 《水土保持学报》2020,34(4):370-375

围绕设施菜田土壤盐渍化问题,以解磷、钾功能微生物胶质芽孢杆菌和巨大芽孢杆菌为研究对象,探究了盐分胁迫对功能菌活性、解磷钾能力的影响,并阐明了含2种功能菌微生物菌剂在轻度盐渍化设施菜田的作用效应。结果表明,混合功能菌最大耐受盐浓度为10.5%NaCl,最适宜生长盐分浓度为0.5%NaCl,且解磷、钾能力最强,有效磷、钾增幅分别为52.06%,75.41%;此外,轻度盐渍化设施菜田的小区试验结果显示含2种功能菌的菌剂可提高番茄、甜瓜、西瓜果实VC和可溶性糖含量,分别增产104.81%,23.72%,28.96%;土壤中有效磷和速效钾含量分别提高95.12%,22.83%,134.52%和92.71%,6.66%,117.46%,显著增加了土壤菌群数量(P0.05)。综上所述,解磷、钾功能微生物具有耐盐性,可在轻度盐渍化土壤中定殖,并能活化土壤磷、钾,提高蔬菜产量和改善品质。  相似文献   

Broad antifungal activity of β-isoxazolinonyl-alanine,a non-protein amino acid from roots of pea (Pisum sativum L.) seedlings     

S. U. Schenk  F. Lambein  D. Werner 《Biology and Fertility of Soils》1991,11(3):203-209

Summary -(Isoxazolin-5-on-2-yl)-alanine (IA), a heterocyclic non-protein amino acid from root extracts and root exudates of pea seedlings, acts as a potent growth inhibitor of several eukaryotic organisms, including yeasts, phytopathogenic fungi, unicellular green algae, and higher plants. The antibiotic effect on baker's yeast was reversed by l-methionine, l-cysteine, and l-homocysteine. Phytopathogenic fungi such as Botrytis cinerea, Pythium ultimum, and Rhizoctonia solani grown on agar containing IA were inhibited in the growth of mycelia or in the production of sclerotia. In contrast, no significant inhibition of either Gram-positive or Gram-negative bacteria was observed. Rhizobium leguminosarum, the compatible microsymbiont of Pisum spp., and Rhizobium meliloti were able to tolerate up to 2.9 mM IA (500 ppm) without any effect on the growth rate. Bradyrhizobium japonicum even gave a positive chemotactic response to IA. The ecological significance of IA as a preformed plant protectant during the seedling stage of Pisum spp. and other IA-containing legumes is discussed.  相似文献