Phytotoxizität von Thallium (TI) in Hydrokultur Teil2: Einfluß von TI(III) auf das Wachstum und die Schwermetallgehalte von Erbsen- und Ackerbohnenpflanzen

Phytotoxicity of Thallium (Tl) in Culture Solution Part 2: Effects of Tl(III) on the Growth and Heavy Metal Contents of Pea and Field Bean Plants The effects of Tl(NO₃)₃ and Tl(III)EDTA on growth and heavy metal contents of pea plants (Pisum sativum L. cv. Aromata) and field bean plants (Vicia faba L. cv. Hangdown) were compared in hydroponic culture experiments. In the presence of Tl(NO₃)₃, the essential heavy metals were available to the plants in their ionic forms. When Tl(III)EDTA was present the essential heavy metals were available as chelated complexes. Dry matter production of the pea plants was inhibited to a greater extent by TI(II1)EDTA than by Tl(NO₃)₃. The distribution of TI within the plant was unaffected by the accompanying anion, however an increase of the TI content of the stems and the leaves was observed in the presence of TI(II1)EDTA. The micronutrients exhibited different interactions with TI(II1). In the presence of increasing concentrations of Tl(NO₃)₃ the Mn content of each organ and the Zn content of the roots were lowered, but the Zn content of the stems was increased. Increasing concentrations of TI(II1)EDTA resulted only in a decrease of the Mn content of the roots, but in an increase of the contents of Fe and Mn within the stems, and Fe, Mn, Zn, and Cu within the leaves. The increases may be due to concentration by growth inhibition. In contrast to pea plants, growth of field bean plants was inhibited only by TI(N03)). The field bean plants retained most of the TI within the roots independent of the TI compound in the solution. Chelation of TI(II1) resulted in higher TI contents of both the roots and the stems, but equal or reduced TI contents of the leaves. Whereas increasing concentrations of Tl(NO₃)₃ reduced the Mn content of each organ as well as the Zn content of the roots and the leaves, TI(II1)EDTA only reduced the Mn content of the roots.     

Zur Phytotoxizität von Nickel- und Kobaltsalzen in Hydrokultur bei Phaseolus vulgaris L.

Phytotoxicity of Ni and Co on Phaseolus vulgaris L. Grown in Solution Culture. A six week long water culture experiment was carried out to test the effect of increasing levels of NiSO₄ or CoSO₄ on beans (Phaseolus vulgaris L var. Saxa). It was found that with increasing concentration both heavy metals were absorbed and translocated to the shoot. In contrast to Ni uptake, Co uptake was clearly reduced at higher levels of Co-nutrition. Co was transported to the leaves in smaller amounts than Ni, the reason for this being the lower mobility of Co in the plant. Because of the specific organ distribution of heavy metals, a concentration gradient was found for Co from the root to the stem, and the leaf to the fruit. For Ni the sequence was root, leaf, fruit, stem. The development of the plants was inhibited by both, NiSO₄ and CoSO₄, but Co was more toxic than Ni. This was demonstrated by relating the dry matter production to the heavy metal content of the tissues.     

Einfluß von N-Lignin auf Wachstum und N-Stoffwechsel von Weizen-Zellsuspensionskulturen

The effects of N-Lignin on growth and N-metabolism in wheat cells in suspension cultures N-Lignin is an organic N-fertilizer which is synthesized from waste liquors of the pulp industry by oxydative ammonisation. Nearly 40% of its N-content is available as ammonium, the rest is linked in organic compounds. Water-soluble fractions of N-Lignin were added to the nutrient solutions of wheat cells in suspension cultures in order to study the effects on growth and N-metabolism. The experiments show that N-Lignin is a suitable nitrogen source for growing wheat cells. The best growth was achieved when 50% of the total nitrogen content of the medium were added as N-Lignin nitrogen. This mixture of N-Lignin and nitrate was even superior to the standard B-5-medium with respect to the final dry weight. However, higher concentrations of N-Lignin inhibited cell growth. The effect of N-Lignin on cell growth is not only influenced by ammonia. If wheat cells were grown on media with ammonium-N as the sole nitrogen source acids of the citrate cycle had to be added to support growth. This was not necessary with N-Lignin. N-Lignin therefore seems to effect the energy metabolism. High amounts of ammonium-N or the reduced N-fractions of N-Lignin respectively resulted in an increase of certain amino acids and especially of the two amides glutamine and asparagine. Furthermore root formation was observed with cells grown in media containing N-Lignin or ammonium-N. The root formation seemed to be correlated with added amounts of reduced nitrogen. Root formation was not observed with cell cultures incubated with N-Lignin solutions which were made free of ammonium-ions with a cation exchanger (Amberlite IR-120) loadad with potassium. This indicates that the differentiation of roots in the normally embryonic cells is due to the ammonium-N content of N-Lignin. A possible correlation between the content of glutamine and asparagine and the formation of roots is discussed.     

Der Einfluß von Dieselkraftstoff auf die Aggregatstabilität,den Plastizitätsindex und das Scherverhalten unterschiedlicher Bodenmaterialien

The effect of Diesel fuel on stability of aggregates, plasticity index and shear strength of two soil materials The influence of Diesel fuel contamination on mechanical properties of soil are investigated with regard to the retreatment of materials after a cleaning process. Following aspects are examined in laboratory tests: waterstability of aggregates, plasticity index and shear strength parameter. The used soil materials are mixed samples of a Luvisol (=Bt) and a tidal influenced alluvial clay sediment of a Gley (=Klei). The aggregate stability of Bt material is rising at increasing Diesel fuel contaminations due to a hydrophob effect on the surfaces of the aggregates. This influence cannot be shown for clay material. On the other hand the plasticity index shows a decrease for low Diesel fuel contaminations, because the Diesel fuel acts directly to the particle surfaces. At increasing contaminations these effects are overlayed by increasing viscosity and shear strength of water and Diesel fuel phases or emulsions. The increase in stability of aggregates is not evident in a shear box test. The Diesel fuel shows no influence to angle of internal friction for both investigated materials. On the other hand there is an effect to the cohesion. This phenomenon could be explicated with above mentioned increase in cohesion due to an increase in shear strength and viscosity of a two phase system.     

Der Einfluß geometrischer Faktoren auf die H2O-Abgabe aus künstlichen Aggregaten und das Wachstum von Roggenkeimlingen

The influence of geometric factors on the water release from artificial aggregates and growth of rye-seedlings Rye-sprouts were cultivated in pots on artificial aggregates of different sizes, but with altogether equal water contents in all variants, at high and low relative humidity. In the course of the experiment, growth of plants and delivery of water were measured. At the end of the experiment, dry- and fresh-matter of roots and sprouts as well as distribution of water within the aggregates were determined. With decreasing aggregate size growth and beginning of fading were accelerated. At low relative humidity the production of dry-matter was higher in case of smaller aggregates compared to larger ones. Delivery of water increased with decreasing aggregate size. The change in water content from the border of the aggregate towards the centre can be expressed as a straight line. The slope of the line increases with decreasing aggregate size. The slopes are modified by the influence of plants and climatic conditions. The water is extracted to a content lower than the permanent wilting point. This is more pronounced with small aggregates and a high evaporative demand.     

Einfluß verschiedener Bodeneigenschaften auf die mikrobielle Toxizität von Blei und Cadmium

Effects of different soil properties on the microbial toxicity of lead and cadmium Effects of different soil properties on the microbial toxicity of lead and cadmium were investigated in laboratory experiments on ten arable and nine preserve area soils. Microbial activity was measured by means of the dehydrogenase and the arginine-ammonification tests. The latter was not suitable to show the microbial toxicity of both metals. Effects of lead on dehydrogenase activity were mainly influenced by its concentration in soil solution (r = 0,79). Thus, all soil properties which determined the adsorption of lead correlated significantly with the relative dehydrogenase activities of the contaminated soils. The most important abiotic factors influencing the toxicity of lead were the soil pH and the CEC. Cd solubility and Cd toxicity were influenced by soil pH in a contrary way. Low Cd concentrations caused greater inhibitions of dehydrogenase activity at neutral and slightly alkaline soil reaction than under acidic conditions. Therefore, correlations between Cd concentrations of soil solutions or clay content and dehydrogenase activity were only significant if partial correlation analysis (constant pH) was used.     

Der Einfluß von Ammoniumnitrat auf das Wachstum und das Strohabbauvermögen höherer Pilze

Influence of ammonium nitrate on the growth and straw decomposition of higher fungi 1. Nine species of higher fungi were investigated in order to study the influence of increasing NH₄NO₃ amounts on mycelial growth, the decomposition of straw substrates, the induction of fruiting bodies and the pH value of the substrates. 2. Increasing ammonium nitrate concentrations in the substrate clearly inhibited mycelial growth of two species (Stropharia rugosoannulata and Flammulina velutipes) whereas the others were not visibly affected. 3. Ammonium nitrate in the substrate led to different substrate decomposition patterns, depending on the fungal species used. The decomposition rates of Pleurotus salmoneo stramineus and Pleurotus eryngii decreased at all N-concentration levels. The decomposition rates of Lentinus edodes and Pleurotus sp. ?Florida”? were stimulated only at the lowest N-concentration level. Flammulina velutipes, Stropharia rugosoannula ta, Agrocybe aegerita, Kuehneromyces mutabilis and Ganoderma applanatum showed enhanced decomposition rates over the whole N-concentration range. 4. The induction and yield of fruiting bodies were also influenced by addition of ammonium nitrate. Low levels of ammonium nitrate stimulated fruiting body formation and yield of Agrocybe aegerita. Fructification of Lentinus edodes was delayed and the yield of fruiting bodies decreased at all N-concentration levels. At the given experimental conditions most of the investigated fungi did not fructify o r developed only primordia. 5. Addition of ammonium nitrate to the sterile substrate caused a decrease in pH. A further decrease in pH was observed after colonization of the substrate by fungi.     

Der Einfluß von P-Ernährung und pH auf die Phosphataseaktivität von Zuckerrübenwurzeln

The influence of phosphorus nutrition and pH on phosphatase activity of sugar beet roots For the determination of acid phosphatase activity (P_ase) of sugar beet roots (cultivar: Reka), plants were cultivated in nutrient solution with 1 or 100 μM P in a growth chamber for 12, 18, 24, 30, 36 and 42 days. The phosphatase activity of intact roots was measured in buffer solutions with pH 4 to 7.2 and 14 mM p-Nitrophenylphosphate (NPP) after 10 min of incubation at 20°C. The influence of P nutrition on P_ase activity was significant at all intervals. At P deficiency the activity was increased by a factor of 4 to 20. During the experimental period the pH optimum was 6. At pH 5 and 7.2 the P_ase activity reached only 63 and 64% respectively of the optimum value. At P deficiency (1 μmol P L^—1) the absolute rate of NPP-hydrolysis at pH 6 was 144 nmol min¹ m¹ root length (day 12 to 36). The plants which received optimum P supply showed only 10% of this value. Sugar beet roots with P deficiency have a high potential of P_ase activity from the acid to the neutral pH-range. Therefore, under this condition they may effectively use dissolved organic phosphorus compounds.     

Wirkungen organischer Substanzen auf Boden- und Düngerphosphat. Teil 2: Einfluß verschiedener organischer Stoffe auf die Mobilität von Dünger-P

Effekt of various organic substances on the mobility of fertilizer P Using model trials, studies were carried out on the influence of long-term organic manuring as well as incubation with rotted straw, maize roots, and slurry, on both the diffusion of ³²P from added (NH₄)₂H³²PO₄ in a ‘soil block’and the fixation rate of fertilizer phosphate in the soil. 1. In the “soil block experiment”, preincubation for 7 days with slurry (added to a low-P brown earth soil at a rate of 5% D. M.) increased diffusion of P as compared to an equivalent amount of added inorganic P. Preincubation with rotted straw resp. maize roots had only insignificant effects. 2. Long-term organic manuring with farmyard manure (P-long-term field trials Weihenstephan) had a significant positive effect on the diffusion of P in the soil block in contrast to annual application of mineral P. Effects of straw manuring were markedly less. 3. Addition of maize roots (5% D. M. to a non P-treated or P-enriched brown earth soil) resulted in a reduced fixation of labelled fertilizer phosphate (by 2–8%), longer preincubation periods, however, increased fixation. Preincubation with rotted straw increased P fixation by 2 to 4% as compared to an equivalent addition of inorganic P (diammonium phosphate).     

Einfluß von Zwei- und Dreischichttonmineralen auf die Dehydrogenase-, saure Phosphatase- und Urease-Aktivität in Modellversuchen

Influence of two- and three-layered clay minerals on the Dehydrogenase-, acid Phosphatase and Urease Activity in model experiments The influence of different Ca-homo-ionic clay minerals as well as humic acid (Roth) on the dehydrogenase activity (DHA) as well as on urease and acid phosphatase were examined in model experiments. The following results were obtained: 1. The DHA of a fertile soil and the activity of urease and acid-phosphatase decreased remarkably and specifically with increasing amounts of sorbents. Generally speaking, inactivation was complete at approximately 0.6 g of each additive. Both urease- and acid phosphatase activity were inactivated specifically. The inactivation of urease decreased in the sequence humic acid < montmorillonite < illite < pyrophyllite < halloysite < kaolinite < bentonite, whereas the following order of succession pyrophyllite < montmorillonite < bentonite < halloysite < kaolinite < illite was recorded with acid phosphatase. The yellow colour of humic acid excluded it from experiments with acid phosphatase. 2. No relationship could be found between the degree of inactivation and the cation exchange capacity (CEC) or the total surface area of the clays. However, nearly the same sequence of inactivation with the three enzyme systems was revealed, if their activity was related to the specific surface charge of the clay minerals. Apparently, both the total surface area as well as CEC are involved in the specific sorption of cells and enzymes. The possible mechanisms of sorption on clay surfaces are discussed.     

Der Einfluß gesteigerter Stickstoffgaben auf die Entwicklung der Wurzelknöllchen,auf die symbiontische Stickstoffassimilation sowie auf das Wachstum und den Ertrag von Ackerbohnen (Vicia faba L.)

The effect of increasing nitrogen fertilizer rates on the development of root nodules, on the symbiotic N₂ assimilation, and on growth and yield of broad beans (Vicia faba L.) In pot experiments with broad beans (Vicia faba minor) the effect of increasing N fertilizer rates (0–800 mg N/pot) on nodulation, symbiotic N assimilation, plant growth, and yield has been studied. The plants were harvested at the beginning and at the end of flowering and at maturity. The following results were obtained: 1. No significant yield differences between treatments were found at the 1st and 2nd harvest, with exception of the 800 mg N/pot treatment which gave higher root yields at the first harvest. 2. At the 1st harvest (beginning of flowering) root nodule yield of the N-zero treatment was higher than the root nodule yield of the N treated plants. At later stages, however, no major differences in root nodule yield between the treatments N₁₀₀ and N₂₀₀ and the N-zero treatment were obtained. 3. Highest grain yields were obtained in the treatment with the lowest N-rate (100 mg N/pot) and in the treatment with the highest N rate (800 mg N/pot). The absolute highest amount of symbiotically fixed N was produced in the low N treatment (100 mg N/pot). Provided that the soil is low in available N a low fertilizer rate is required in order to exploit the full N₂ assimilation potential. 4. The total soil N remained fairly constant throughout the growing period.     

Einfluß von Herbiziden auf die N2-Fixierung und Atmungsaktivität von Mikroorganismen in Ackerböden

Influence of herbicides on nitrogen fixation and respiration activity of microorganisms in arable soils The influence of pesticides on nitrogen fixation (acetylene reduction test) as well on respiration activity was determined in model experiments. The following soils were used: Chernozem from loess (Boroll), Luvisol from loess (Boralfs), Rendsina (Lithic Rendoll), Pelosol (Fine textured Cambisol) and Humic Podzol (Humod). The tested soils differed considerably in both parameters. The rendsina showed remarkably low fixation rates whereas the podsol reduced acetylene only at higher water contents. The soil herbicides chlortoluron, terbutryne, metabenzthiazuron and chloridazon did not affect the course and the magnitude of the tested parameters even not at higher doses. Only the leaf herbicide dinosebacetate revealed a distinct inhibition of nitrogenase activity in the podsol and in the luvisol from loess. The fungicide carbendazime caused a strong stimulation of the nitrogenase activity in all soils. The respiration activity could not been influenced significantly.     

Wirkungen organischer Substanzen auf Boden- und Düngerphosphat Teil 1: Einfluß von Stroh- und Maiswurzelextrakten auf die Löslichkeit von Boden-und Dünger-P

Effects of organic substances on soil- and fertilizer phosphate Part 1: Influence of straw or maize-root extracts on the solubility of soil and fertilizer P The effects of straw and maize-root extracts on the solubility of soil and fertilizer phosphate were tested in incubation trials. The following results were obtained. 1. Addition of an extract of unrotted straw (10 g straw/100 g soil) to incubate a brown-earth soil, (high or low in P) for 1–14 days did not have any significant effects on the H₂O and CAL P-fraction as compared to a KH₂PO₄ control, but markedly increased transformation of ‘easily soluble’Fe- and Al-phosphates (?15 to ?40 ppm) into ‘less soluble’forms (+15 to +20 ppm). Addition of an extract of rotted straw decreased the amounts of water extractable P and ‘easily soluble’Fe- and Al-phosphates but CAL-extractable P and ‘less soluble’Fe- and Al-phosphates were increased. 2. Incubation of the same soil (P-enriched) with an extract of maize roots (roots: soil = 1:3) for 1 day resulted in a reduction in the fixation of fertilizer phosphate (34 as compared to 42%) and in a decrease of fertilizer P recovered as ‘less soluble’Fe- and Al-P (from 31 to 11%); however, fixation was markedly increased after 14 days.     

Der Einfluß von Bewässerung und Fruchtfolge auf den Humus- und Stickstoffhaushalt sowie die Bodenproduktivität in der Gezira (Sudan)

The influence of irrigation and crop rotation on the humus and nitrogen balance and soil productivity in the Sudan Gezira . Yields of Sorghum and Cotton, but not of Dolichos increased up to 3 times from the 10th to the 30th year in an unfertilized, irrigated field experiment on a vertisol with crop rotations of Cotton, Sorghum and Dolichos, esspecially after preceding years of bare fallow. Nitrogen fixation by root nodules and asymbiotic fixation by Azotobacter and blue green algae are discussed as a cause of the increased soil productivity. In a field pot trial with 2.5 cm layers of flooded soil 75 ppm of nitrogen were fixed in 12 weeks by blue green algae. On fertilization with 0.1% K₂HPO₄ and 0.1% K₂HPO₄ + 50 ppm Na₂MoO₄ they fixed 244 and 290 ppm N respectively. Drying and reflooding the soil once to several times caused the N-fixation to decrease steadily until it stopped with weekly dryings. Strong increases and decreases of organic C and N were observed in moist and also in dry field soil in different seasons as well as short term fluctuations of organic N in dry field soil.     

Der Einfluß von Fungiziden auf die mikrobielle Aktivität eines Bodens

The influence of fungicides on microbial activity in soil The objective of this work was to investigate the influence of the fungicides copper, sulfur, mancozeb, captan-folpet-folcid, quintozene and benomyl on CO₂-evolution and on the dehydrogenase-, xylanase- and urease-acitivities of an acid soil. The investigations showed that a recommended dosage of fungicide caused an increase in CO₂-evolution. After the second and third fungicide application this ‘stress reaction’ was followed by a decrease in CO₂-release below the value of the untreated control soil. Up to the tenth week after pesticide application again an increase of the activity could be shown. This increase might be explained by an inactivation of fungicides, a selection of resistant species, a decreasing competition of microorganisms and mineralization of dead organisms. Finally, after 10 to 14 weeks the activity returned to the value of the untreated soil, that was probably due to the recovery of the affected microflora and/or a new adapted microflora. The various enzyme activities did not follow this scheme exactly. The course was influenced by the mode of action of the particular compound used. Brassicol (Quintozene) differed because of the severe and continous inhibition of the xylanase activity. It can be concluded that the fungicides applied to the soil influence both the CO₂-release and the activities of the soil enzymes tested. Consequently litter decomposition and metabolic activities may be affected for 3 to 4 months.     

Der Einfluß der Fauna auf die Stoffverlagerung sowie die Homogenität und die Durchlässigkeit von Böden

The influence of the fauna on displacement and on homogeneity and permeability of soils The influence of the most important soil animals (mammals, ants, termites, woodlice and earthworms) on displacement and on homogeneity and permeability of soils is discussed in reference to both older and more recent literature. Nearly all soil animals cause displacement of organic and mineral soil particles. The quantity, intensity and direction of this activity depends upon the morphological characters of the species involved. The homogeneity of soils is positively influenced only by the earthworms (and related forms) whereas the activity of the other soil fauna mostly has a contrary effect as far as shorter periods are concerned. The permeability of soils increases in different dimensions due to the activity of all species discussed. Permanent vegetation and non-tilling for the most part favour the activity of the soil fauna. Recent field experiments dealing with minimum or zero tillage have made this fact fairly evident.     

Der Einfluß künstlicher vertikaler Grobporen in einer verdichteten Bodenmatrix auf das Wachstum von Winterweizen II. Wachstum von Winterweizen auf einem primären Pseudogley

The influence of artificial vertical macropores in a compacted soil on the growth of winterwheat. II. Growth of winterwheat on a pseudogley In a pseudogley the effect of artificial vertical macropores in a compacted structure was compared to a compacted structure without artificial vertical macropores and to a loosened structure. Only in a very wet year (830 mm precipitation), water extraction and yield were positively influenced by the artificial vertical macropores in the compacted structure. Compared to the compacted structure without artificial macropores, where most of the water was extracted from the upper 25 cm of the soil, with vertical macropores most water was extracted from the depth 25–50 cm. In a dry year (700 mm precipitation), the difference in water extraction between the compacted structures with and without vertical macropores was only small. Most water was extracted from the loosened structure, but yield was reduced compared to both compacted structures. However, in the dry year, water extraction from the compacted structure without artificial macropores was uniform for the depth 0–50 cm, whereas for the structure with artificial macropores and for the loosened structure most water was extracted from the depth 0-25 cm. Neither in the wet nor in the dry year, vertical root extension was increased by the vertical macropores, but in the wet year root mass was positively influenced by the vertical macropores.     

Einfluß von Ammonium- und Nitratstickstoff auf die Entwicklung von Buchenjungpflanzen

Influence of ammonium and nitrate nitrogen on the growth of young beech plants Young beech plants were grown in aerated nutrient solutions with NH₄ or NO₃ nitrogen for a period of 12 weeks. pH-changes caused by the source of nitrogen were corrected every second day. Absorption of NH₄-N was higher than of NO₃-N. NH₄-N was superior for shoot growth and development of lateral roots, NO₃-N for growth of the main root. Nutrient solution containing both sources of nitrogen was the most favorable.