Prolonged Testing of Metal Mobility in Mining-Impacted Soils Amended with Phosphate Fertilisers   总被引：1，自引：0，他引：1  

Niels C. Munksgaard  Bernd G. Lottermoser  Kevin Blake 《Water, air, and soil pollution》2012,223(5):2237-2255

The aim of the study was to determine whether the application of superphosphate fertiliser to soils contaminated with mine wastes can inhibit metal and metalloid mobility (Cu, Pb, Zn, Cd, Fe, Mn, As, Sb) in the long term. Contaminated soils contained sulfide- and sulfate-rich waste materials from the Broken Hill and Mt Isa mining centres. Results of long-term (10 months) column experiments demonstrate that fertiliser amendment had highly variable effects on the degree of metal and metalloid mobilisation and capture. Rapid release of metals from a sulfate-rich soil showed that phosphate amendment was ineffective in stabilising highly soluble metal-bearing phases. In a sulfide-rich soil with abundant organic matter, complexing of metals with soluble organic acids led to pronounced metal (mainly Cd, Cu and Zn) release from fertiliser-amended soils. The abundance of pyrite, as well as the addition of fertiliser, caused persistent acid production over time, which prevented the formation of insoluble metal phosphate phases and instead fostered an increased mobility of both metals and metalloids (As, Cd, Cu, Sb, Zn). By contrast, fertiliser application to a sulfide-rich soil with low organic carbon content and a sufficient acid buffering capacity to maintain near-neutral pH resulted in the immobilisation of Pb in the form of newly precipitated Pb phosphate phases. Thus, phosphate stabilisation was ineffective in suppressing metal and metalloid mobility from soils that were rich in organic matter, contained abundant pyrite and had a low acid buffering capacity. Phosphate stabilisation appears to be more effective for the in situ treatment of sulfide-rich soils that are distinctly enriched in Pb and contain insignificant concentrations of organic matter and other metals and metalloids.  相似文献   

Phosphorus bioavailability of biochars produced by thermo‐chemical conversion          下载免费PDF全文

Bernd Weber  Ernst A. Stadlbauer  Elmar Schlich  Sabrina Eichenauer  Juergen Kern  Diedrich Steffens 《植物养料与土壤学杂志》2014,177(1):84-90

Recycling of P is a common strategy in efficient use of P. The aims of our investigation were to study the P extractability of biochars produced by low temperature conversion and to determine the effect of soda application on low‐temperature conversion of organic compounds and the bioavailability of P to rye grass (Lolium perenne L., cv. Grazer). In this study canola cake, dried distillers grains with solubles, and meat‐and‐bone meal were converted to biochars with thermo‐chemical conversion at 400°C. The P availability was measured in terms of solubility in water, 2% citric, and 2% formic acid, and in a pot experiment with rye grass (Lolium perenne L.) which was cut three times. Application of 8% (w/w) soda to the process of thermo‐chemical conversion of canola cake, dried distillers grains with soluble and meat‐and‐bone meal resulted in an increase of water‐, 2% citric‐, and 2% formic‐acid‐extractable P in the biochars. In contrast to the application of soda, addition of 12% wood ash (w/w) to the conversion of dried distillers grains with solubles resulted in a lower increase of water‐soluble P in the corresponding biochar compared to processing biochar without additives. Addition of biochar P (100 mg P [kg soil]^–1) to a Luvisol resulted in an increase of CAL‐extractable soil P. The P uptake of rye grass from biochars produced with the addition of soda was as effective as basic slag and MgNH₄ phosphate fertilizers and even better than rock phosphate.  相似文献   

Die Rolle der Ertragssteigerung im Anpassungsprozess der Landwirtschaft     

Bernd Andreae 《Plant foods for human nutrition (Dordrecht, Netherlands)》1970,20(1-2):7-33

Measures undertaken in the Federal Republic of Germany to rationalize agricultural production, viz. a reduction of intensive farming, simplification of farm production methods, and the introduction of specialization and mechanization, have been carried to their near completion in modern agricultural holdings. It is now necessary to introduce a new overriding economic principle if we are to successfully meet further wage increases and price reductions and improve the income level of the agricultural population. A new farm management concept based on the idea of a radical increase in specific intensive production methods is now being developed. In view of the high fixed costs in West German agriculture, the degression of fixed costs per production unit outweights the progression of variable costs when output is increased. In other words, higher yields per hectare and animal effect a decrease in unit costs. Nitrogen fertilizer being the most important factor in output increase, its profitable level is examined by means of six marginal value analyses. The fertilizer optimum is reached when marginal costs and marginal yields balance each other out. In all six examples this optimum coincides almost exactly with the point of maximum yield per hectare. This simplifies the problem considerably, at least under the conditions established for six examples. The optimal input level of nitrogen fertilizer does not have to be determined by means of a complicated marginal value analysis. It lies just under the maximum yield per hectare. We cannot expect that price-cost alterations will push this fertilizer optimum up within the near future. However, we may assume that new possibilities will open up for nitrogen fertilizer. In the first place, the majority of the agricultural holdings are still a long way from having reached the fertilizer optimum now economically feasible. Secondly, the present level of fertilizer optimum is constantly being raised as the result of technological advances. It is the task of economic counselling to achieve the fullexploitation of available earning power resources and the task of scientific research todevelop new earning power resources. The exploitation and the development of earning power resources can have very positive results in the case of inorganic fertilizer, since through its application it is possible to even out income disparities in agriculture

—help small holdings in particular, mineral fertilizer being a divisible input factor

—come closer to a solution of the central probrem of the agriculture of the Federal

—Republic of germany, that of combining high labour productivity with high soil productivity.

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Use of C-reactive protein to predict outcome in dogs with systemic inflammatory response syndrome or sepsis     

Constance Gebhardt  Dr med vet  ; Johannes Hirschberger  Dr med vet  DECVIM  DECVCP  ; Stefanie Rau  Dr med vet  ; Gisela Arndt  Dr rer pol  ; Karen Krainer  ; Florian J. Schweigert  Dr med vet  ; Leo Brunnberg  Dr med vet  ; Bernd Kaspers  Dr med vet    Barbara Kohn  Dr med vet  DECVIM 《Journal of Veterinary Emergency and Critical Care》2009,19(5):450-458

Background – There is a high mortality rate in patients with systemic inflammatory response syndrome (SIRS) or sepsis. Therefore, an early diagnosis and prognostic assessment is important for optimal therapeutic intervention. The objective of the study was to evaluate if baseline values and changes in serum C-reactive protein (CRP) might predict survival in dogs with SIRS and sepsis.
Design – Prospective study; July 2004 to July 2005.
Setting – Small Animal Clinic, Berlin, Clinic of Small Animal Medicine, Munich.
Animals – Sixty-one dogs.
Measurements and Main Results – For the CRP analysis blood was drawn on day 0, 1, and 2; CRP was measured using a commercial ELISA test kit. Thirteen dogs suffered from nonseptic SIRS and 48 dogs from sepsis. The 14-day survival rate was 61% (69% nonseptic SIRS, 58% sepsis). Serum CRP was higher in sick dogs compared with controls ( P <0.001). Over the 3-day period surviving dogs ( n =31) displayed a significantly greater decrease in CRP than nonsurvivors ( n =10) ( P =0.001). No correlation was found between the initial CRP concentrations and the survival rate. The changes in CRP corresponded to the survival rate ( P =0.01).
Conclusion – There was no significant relationship between the survival rate in dogs with nonseptic SIRS or sepsis and the initial serum CRP concentrations. There was a correlation between decreasing CRP concentrations and recovery from disease. However, the changes in CRP concentrations over a 3-day period correctly predicted survival in 94% of dogs and death in 30% of the dogs (false positive rate 22%).  相似文献   

Depressed growth of non‐chlorotic vine grown in calcareous soil is an iron deficiency symptom prior to leaf chlorosis     

Bernd Gruber  Harald Kosegarten 《植物养料与土壤学杂志》2002,165(1):111-117

The development of iron deficiency symptoms (growth depression and yellowing of the youngest leaves) and the distribution of iron between roots and leaves were investigated in different vine cultivars (Silvaner, Riparia 1G and SO4) grown in calcareous soils. As a control treatment all cultivars were also grown in an acidic soil. Only the cultivars Silvaner and Riparia 1G showed yellowing of the youngest leaves under calcareous soil conditions at the end of the cultivation period. All cultivars including SO4 showed severe shoot growth depression, by 50 % and higher, before yellowing started or without leaf yellowing in the cultivar SO4. Depression of shoot growth occurred independently from that of root growth. In a further treatment the effect of Fe‐EDDHA spraying onto the shoot growth of the cultivar Silvaner after cultivation in calcareous soil was investigated. Prior to Fe application plants were non‐chlorotic, but showed pronounced shoot growth depression. Spraying led to a significant increase in shoot length, though leaf growth was not increased. Accordingly, depression of shoot growth of non‐chlorotic plants under calcareous soil conditions and with ample supply of nutrients and water has been evidenced to be at least partly an iron deficiency symptom. We suggest that plant growth only partially recovered because of dramatic apoplastic leaf Fe inactivation and/ or a high apoplastic pH which may directly impair growth. Since growth was impaired before the youngest leaves showed chlorosis we assume that meristematic growth is more sensitively affected by Fe deficiency than is chlorophyll synthesis and chloroplast development. In spite of high Fe concentrations in roots and leaves of the vines grown in calcareous soils plants suffered from Fe deficiency. The finding of high Fe concentrations also in young, but growth retarded green leaves is a further indication that iron deficiency chlorosis in calcareous soils is caused by primary leaf Fe inactivation. However, in future, only a rigorous study of the dynamic changes of iron and chlorophyll concentration, leaf growth and apoplastic pH at the cellular level during leaf development and yellowing will provide causal insights between leaf iron inactivation, growth depression, and leaf chlorosis.<?show $6#>  相似文献   

Priming effects of sugars,amino acids,organic acids and catechol on the mineralization of lignin and peat     

Ute Hamer  Bernd Marschner 《植物养料与土壤学杂志》2002,165(3):261-268

The ¹⁴C‐labeled substrates glucose, fructose, alanine, glycine, oxalic acid, acetic acid, and catechol were incubated at 20 °C in a model system that consisted of sand mixed with lignin or peat (3 % C_org). Each substrate was added at either 80 or 400 μg C (g sand)^—1. During 26 days of incubation with an inoculum extracted from forest soil, the amount of CO₂ evolved was measured hourly. The amount of ¹⁴CO₂ was determined after 4, 6, 12, 19, and 26 days. After 26 days of incubation, each substrate showed priming effects, but not in all examined treatments. Most substrates stimulated the degradation of the model substances (positive priming effects). Negative priming effects only were found in the lignin system with oxalic acid and catechol addition at both concentrations. The strongest positive priming occurred in the peat system with the oxalic acid addition of 80 μg C g^—1 where 1.8 % of the peat were mineralized after 26 days, compared to 0.7 % in the control. The addition of 400 μg alanine‐C g^—1 caused the strongest increase in lignin mineralization, amounting to 3.9 % compared to 2.8 % in the control. During the incubation the extent of priming changed with time. Most substrates caused the strongest effects during the first 4 to 10 days of incubation. The extent of priming depended on substrate type, substrate concentration, and organic model substance. Possibly this is due to the activation of different microorganisms.  相似文献   

Soil type and land use effects on tensorial properties of saturated hydraulic conductivity in northern Germany     

Rainer Horn  Anneka Mordhorst  Heiner Fleige  Iris Zimmermann  Bernd Burbaum  Marek Filipinski  Eckhard Cordsen 《European Journal of Soil Science》2020,71(2):179-189

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Bernd Bitter und Otto=Friedrich Niklas 《Forstwissenschaftliches Centralblatt》1939,61(14):429-438

Ohne Zusammenfassung  相似文献   

Die Massenvermehrung der KiefernbuschhornblattwespePteronus (= Lophyrus) pini L. im Forstamt Crappen (Crappönen), Ostpreuszen, 1936–1937     

Bernd Bitter  Otto=Friedrich Niklas 《European Journal of Forest Research》1939,61(14):429-438

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Multiplex qPCR assay for simultaneous quantification of CYP51-S524T and SdhC-H152R substitutions in European populations of Zymoseptoria tritici     

Pierre Hellin  Maxime Duvivier  Aurélie Clinckemaillie  Charlotte Bataille  Anne Legrève  Thies M. Heick  Lise N. Jørgensen  Björn Andersson  Berit Samils  Bernd Rodemann  Gunilla Berg  Steven Kildea 《Plant pathology》2020,69(9):1666-1677

Demethylation inhibitor (DMI) and succinate dehydrogenase inhibitor (SDHI) fungicides are currently relied upon for the control of septoria tritici blotch (STB) in European wheat fields. However, multiple mutations have occurred over time in the genes encoding the targeted proteins that have led to a practical loss of fungicide efficacies. Among the different amino acid substitutions in Zymoseptoria tritici associated with resistance to these fungicides, S524T in CYP51 (DMI target) and H152R in SdhC (SDHI target) are regarded as conferring the highest resistance factors to DMI and SDHI, respectively. To facilitate further studies on the monitoring and selection of these substitutions in Z. tritici populations, a multiplex allele-specific quantitative PCR (qPCR) assay allowing for estimation of both allele frequencies in bulk DNA matrices was developed. The assay was then used on complex DNA samples originating from a spore trap network set up in Belgium, Denmark, Sweden, and Ireland in 2017 and 2018, as well as on leaf samples with symptoms. The S524T allele was present in all field samples and its proportion was significantly higher in Ireland than in Belgium, whereas the proportion of H152R was only sporadically present in both countries. The frequency of S524T varied greatly in the airborne inoculum of all four countries; however, the H152R allele was never detected in the airborne inoculum. The method developed in this study can be readily adopted by other laboratories and used for multiple applications including resistance monitoring in field populations of Z. tritici.  相似文献