Growth traits,physiological parameters and hormonal status of snap bean (Phaseolus vulgaris L.) sprayed with garlic cloves extract

Garlic extract has been established to enhance the growth and yield of some plant crops, but little is known about its content of phytohormones. A field study was carried out, in two growing seasons, to evaluate the performance of snap bean (Phaseolus vulgaris L.) cv. ‘Paulista’ in terms of growth traits, biochemical parameters, hormonal status and yield characteristics in response to two-time foliar spray at 30 and 45 days after sowing with three concentrations (1:40, 1:20 and 1:10) of garlic cloves extract (GCE). The experiment was designed in completely randomized blocks in a factorial arrangement with three replicates. The hormonal analysis indicated that GCE contains high levels of various phytohormones particularly salicylates, auxins, and gibberellins. Plant height, leaf area, leaves number, plant weight, flowers number and leaf and pod chemical compositions were significantly enhanced in response to GCE. The high dose of GCE caused the maximum increase in number of pods, pod fresh weight as well as the total pod yield. This stimulating effect of GCE may be due not only to its nutritional factors but also to its richness of phytohormones and phenolic compounds, and it can be further used as a plant growth promoter (PGP).     

Using Moringa oleifera extract as biostimulant enhancing the growth,yield and nutrients accumulation of pea plants

Trials on the potentials of moringa for organic farming have shown that leaves contain substances, which when sprayed on crops enhance growth and yield of crops. Moringa is nutrient-rich plant with combination of antioxidants, amino acids, nutrients, potassium (K), calcium (Ca), iron (Fe) and vitamins. A field experiment was conducted on a sandy soil conditions at Salhia El-gdida county, El-Sharkia Government, Egypt during the growth seasons of 2014/2015 to study the effect of moringa leaves extract (MLE) at different rates on yield and nutrient accumulation of pea plants (pisum sativum L.). Foliar spraying of MLE was done in three equal doses at 25, 35 and 45 after planting at a rate of 0%, 1%, 2%, 3% and 4%. All treatments of MLE significantly increased fresh pods yield, shoot and seeds dry weight, biological yield, 100 seed weight, yield efficiency, protein content and nutrient accumulation as compared to control. The highest values of photosynthetic pigments, growth parameters and nutrient accumulation of plants were obtained with 4% of MLE. Also, the highest percentage increase in fresh pods yield and protein content of 82.5% and 45%, respectively, was recorded from the treatment of 4% MLE.     

Inducing drought tolerance in wheat by applying natural and synthetic plant growth promoters

Crop productivity in future may be limited due to water scarcity. However, foliar spray of plant growth promoters may boost crop production even in adverse environments. In the present study, foliar application of one natural (moringa leaf extract, 3% MLE) and four synthetic (Polydol, Multisol, Classic, and Asahi Star) were applied at tillering, jointing, booting, and heading growth stages of wheat (Triticum aestivum L.) during severe, moderate, and light drought and well‐watered condition. No spray and water spray were taken as controls. Results showed significant reduction in growth parameters such as total dry matter production, mean crop growth rate, net assimilation rate, leaf area index, and duration due to drought employed at various phenophases of wheat. However, improvement in these parameters was observed after foliar application of growth promoters, whereas interactive effects between factors were found non‐significant. The activities of catalase (CAT), superoxide dismutase (SOD), and peroxidase (POD) were more accelerated under drought treatments from exogenously supplied growth promoters. Foliar application of promoters significantly alleviated drought‐induced reduction of yield and related traits. Grain weight (15%) and grain yield (27%) were improved due to exogenously applied MLE under moderate drought stress treatments relative to controls. Furthermore, 16% higher grain yield and 17% saving of irrigation water over fully irrigated and without promoter treatment (farmers' practice) was recorded from foliar‐applied MLE under skipped irrigation at jointing. In conclusion, foliar‐applied MLE may ameliorate drought‐induced deleterious effects by enhancing antioxidant activities under drought stress.     

Mitigation of salinity stress effects on growth,yield and nutrient uptake of wheat by application of organic extracts

ABSTRACT

The reduction of the plant performance was observed in plant growth and yield with reduction in the plant’s production of at least 20% of irrigated land worldwide due to the salinity, so it is the major abiotic stresses. For promoting growth and increasing crop yield natural extracts were used in agriculture and horticulture as bio-stimulants. At the Experimental Farm of the Faculty of Agriculture Zagazig University, a pot experiment has been done under greenhouse condition for studying the spray of natural extracts; moringa leaves extract (MLE); algae extract (AE); licorice root extract (LRE) and propolis extract (PE) on yield, photosynthetic pigments and nutrient uptake of wheat grown on saline soil taken from Abou Hammad county, El-Sharkia Governorate, Egypt. Results showed that spraying with different organic extracts significantly increased yield, protein content, photosynthetic pigments and nutrient uptake as compared to untreated plants. Spraying with MLE gave an increase of all parameters i.e., yield, protein content, NPK, Fe, Zn, and Mn accumulation of wheat plants. The highest increases in grain yield were 81%, 110%, 78% and 50%, caused by MLE, AE, LRE and PE, respectively.     

Morpho-physiological and yield responses to exogenous moringa leaf extract and salicylic acid in maize (Zea mays L.) under water stress

Two field experiments were executed to investigate the effects of foliar-applied moringa (Moringa oleifera) leaf extract (MLE; 1:30 w/v) and salicylic acid (SA; 0.5 mmol), singly or in combination, on growth, physio-biochemical, yield attributes and water use efficiency (WUE) of maize (Zea mays L., Three Ways Cross 329) under full and deficit irrigation conditions. Deficit irrigation was carried out by withholding water for 36 d from 12 to 48 days after sowing (DAS). At vegetative stage, deficit irrigation signi?cantly decreased all growth criteria, chlorophyll a concentration, and relative water content (RWC). In contrast, deficit irrigation considerably increased the concentrations of carotenoids, proline, membrane permeability (MP) and malondialdehyde (MDA). Similarly, grain yield, most yield components and WUE were significantly depressed in drought-stressed plants. However, foliar-applied treatments particularly MLE+SA signi?cantly increased growth traits, photosynthetic pigments, RWC and proline accumulation associated with a simultaneous decrease in MP and MDA concentration under full and deficit irrigation conditions. The application of MLE+SA markedly increased grain yield, yield components and WUE over control (spray tap water). Overall, the combined application of MLE and SA could be used for alleviating the adverse effects of growth, physiology, yield criteria and WUE in drought-stressed maize plants.     

The impact of phytohormone concentration in Moringa oleifera leaf extract on wheat yield and components of yield

Abstract

Trials with Moringa oleifera leaf extract (MLE) sprayed on leaves of wheat (Triticum aestivum L.) showed different outcomes in grain yield and the components of yield (biomass at anthesis, number of ears, number of tillers, grain weight, 1000 seed weight). An irrigated field trial testing different MLE concentrations resulted in an increase in grain yield of 19% with a 10% concentration but not significant yield increases for higher concentrations of MLE. Dryland field trials with MLE concentrations at 5% and 10% showed no effects or more moderate (about 5–10%) increases in grain yield, depending on the year and location of study. The differences in grain yield responses are most likely due to changes in phytohormone concentration in MLEs brought on by abiotic stress (moisture deficit and seasonal change) of the moringa tree before the collection of the leaves. Concentrations of gibberellins, auxin, abscisic acid, salicylic acid, and jasmonic acid in MLEs differ markedly due to plants subjected to abiotic stresses. Comparing chemical analysis of MLE with grain yield effects showed that GA4 – most likely in crosstalk with auxin – is the major growth enhancer. It is concluded that the hormonal concentrations of MLEs strongly varies on a yearly basis, which may affect the potential use of this bio-stimulant in agriculture.     

Natural Biostimulants Improve Saline Soil Characteristics and Salt Stressed-Sorghum Performance

Humus substances (HM) and Moringa oleifera leaf extract (MLE) are considered as biostimulants used for plant growing under normal and salt stress conditions. Therefore, effects of soil HM and foliar MLE applications on soil characteristics and on sorghum growth, physio-biochemical properties, and antioxidant defense system activity were investigated under salt stress using pot experiments. The experimental design was a split-split plot with three soil salinities (S₁, S₂, and S₃) as main-plots, two HM levels (0 and 0.1 g kg^?1 soil) as subplots, and two MLE levels (0% and 3%) as sub-subplots, and each one of the 12 treatments was replicated 20 times. Saline soil properties were improved by HM. Under saline conditions, either HM or MLE increased growth characteristics, photochemical activity, contents of RNA, DNA, phytohormones, osmoprotectants and non-enzymatic antioxidants, and activities of antioxidant enzymes in sorghum plants compared to those in the untreated control plants. The interactive HM×MLE application was most effective at overcoming the harmful effects of soil salinity stress and further increased the abovementioned criteria. This study, therefore, recommends using the integrative HM+MLE treatment for growing sorghum plants in saline soils up to more than 6.12 dS m^?1 without loss in growth characteristics.     

The effect of foliar application of Moringa leaf extract on biomass,grain yield of wheat and applied nutrient efficiency

Moringa leaf extracts (MLE) from two varieties of Moringa oleifera Lam. were applied to leaves of wheat (Triticum aestivum L.) in two glasshouse experiments. MLE was extracted from the leaves of using three different solvents (hexane, butanol; ethyl-acetate). The extracts were applied as foliar sprays at different growth stages of wheat (T. aestivum L.) grown on two soil types with either adequate or low phosphorus (P) nutrient additions at Albany, Western Australia. Sprays were applied at the 4–5 leaf (tillering) and the 7-leaf (Boot) stage either as a single spray or a combination of sprays at tillering and boot stage. The application of MLE either at tillering or boot stage increased the dry weight of shoots (biomass) and grain yield of wheat. A foliar spray of MLE applied at tillering increased biomass at the boot stage by ～37% and grain yield increased by ～34% compared to nil MLE spray. A single spray of MLE increased grain yield by ～30% when applied at boot stage. A single application at tillering gave a better yield response than a single spray at the 7-leaf or boot or than a double spray applied at tillering and boot stage. A 50% dilution of the extractant concentration gave the same grain yield response as the original concentration applied at tillering stage. The hexane extracts gave the significantly higher grain yield responses. Plant tissue and grain analysis showed no significant difference in protein and nutrient concentration of wheat grain from plants sprayed with and without MLE. A MLE spray at boot also increased grain yield by 44% on the red sandy-loam soil where P application was at sub-optimum levels, ～80% of P requirement for maximum yield. The partial factor productivity (PFP) index indicated that the P and potassium (K) use improved where MLE was applied as a foliar spray. For example, the PFP of P and K for grain yield increased by about 30%, where MLE was sprayed to foliage. The results of this study indicate that MLE extracted can potentially be a viable option to increase wheat grain yield and fertilizer efficiency use, particularly P and K, in Mediterranean wheat production system.     

光照亏缺对橡胶-作物农林复合系统中作物生产力的影响

为探明农林复合系统中光照亏缺对不同间作作物生产力的影响,以橡胶-豆薯和橡胶-花生农林复合模式为研究对象,测定光照强度、作物生物量、光合生理等指标,研究光照亏缺对不同喜光间作作物生产力的影响及可能的影响因素。结果表明,复合系统中间作区域的光照强度日变化呈单峰型,间作区域平均光照强度为裸地对照的51.3%～59.0%。间作作物的产量显著低于相应单作处理(P0.05);间作豆薯产量可达22.9 t×hm~(-2),为单作处理的85.3%;而间作花生产量仅为单作处理的39.2%。光照亏缺环境对间作豆薯和花生不同位置叶片的RuBisCO活性没有显著影响,但显著提高叶绿素(特别是叶绿素b)含量,降低类胡萝卜素含量(P0.05),其光合能力亦低于相应单作处理。复合系统中间作豆薯叶面积高于单作豆薯,而间作花生叶面积则较单作花生显著降低59.1%～88.4%(P0.05)。综上所述,豆薯比花生更适合在橡胶-作物农林复合系统中进行间作,间作豆薯应该是通过维持较高的叶面积来捕获光能并制造更多的光合产物,从而维持相对较高的生产力。     

Effect of Deinking Paper Sludge Compost On Nutrient Uptake and Yields of Snap Bean And Potatoes Grown in Rotation

The paper industry in Canada faces a challenge of economically sound and environmentally safe disposal of massive amounts of residues. A field study was conducted in 1996 and 1997 to evaluate the effects of application of a compost derived from a mixture of deinking paper residues and poultry manure (DSPC) on P and K uptake, and yields of snap bean (Phaseolus vulgaris L. cv. Centralia), and potato (Solanum tuberosum L. cv. Gold Rush). The experiment was conducted on a Tilly silt loam (Gleyed Humo-Ferric Podzol) located in Sainte-Croix de Lotbinière, Québec, Canada. The DSPC was applied in the spring 1996 at 0, 14, 28 and 42 Mg ha^?1 on a dry matter basis, and supplemented or not with mineral fertilizer (MF) at 0, 60, 120 and 180 kg P₂O₅-K₂O ha^?1. In 1997, P fertilizer was applied in subplots at 0, 100, 200 and 300 kg P₂O₅ ha^?1. Snap bean yield increased significantly with DSPC and MF application. Apparent P and K recoveries from MF by snap bean decreased with DSPC or MF rate. In combination with DSPC, P and K recoveries from MF by snap bean were smaller at all rates than those with no DSPC. Based on nutrient uptake, P and K in DSPC were more available than in MF. Potato yield in the following year was not significantly influenced by the previous treatments nor by supplemental P fertilizer added in the second year. This experiment indicates that compost derived from a mixture of deinking papermill sludges and poultry manure is a potential source of P and K for crops and will increase crop yields in the application year.     

The influence of N concentration and NO3/NH4 ratio on the growth of lima and snap bean and southern field pea seedlings

Abstract

Lima and snap beans and southern field peas were cultured in a modified Hoagland's solution for 14 days with N supplied as Ca(NO₃)₂ and/or (NH₄)₂SO₄ at three N concentrations and five ratios of NO₃ to NH₄. The ratio of NO₃/NH₄, rather than the N concentrations influenced seedling growth of these vegetable legumes. Maximum seedling growth of lima bean was generally obtained with all combinations of NO₃ and NH₄. A preference for 75% NO₃ and 25% NH₄ was observed for snap bean. Southern field pea growth was reduced only when all of the N was supplied as 100% NH₄. Ammonium toxicity symptoms, lesions and severe wilting, developed with snap bean and southern field pea within 14 days when cultured with 100% NH₄. Lima bean, though reduced in growth, exhibited a tolerance to the 100% NH₄ treatment.     

Einfluß von Silizium auf den Bindungszustand von Mangan im Blattgewebe von Bohnen (Phaseolus vulgaris)

Effect of silicon on the chemical state of manganese in bean leaf tissue (Phaseolus vulgaris L.) In water culture experiments with bean plants the effect of different manganese supply and of silicon on the chemical state of manganese in the leaf tissue has been studied. Water, KCl, EDTA and methanol have been used for extraction. Water extracted up to 80% of the total manganese from previously frozen or freeze dried leaf tissue. This water soluble fraction of manganese showed a positive correlation with manganese supply and leaf age. Silicon had no effect on the manganese extractable by water, KCl or EDTA. The high proportion of manganese in the water extract is probably the result of manganese oxides (MnO₂?) being dissolved during extraction by organic cell constituents e.g. organic acids. Therefore, in vivo less manganese is water soluble than the amount extractable with water. In contrast to water, methanol extrated less than 10% of the total manganese. Silicon supplied in the culture solution doubled the amount of manganese extracted from the leaves by methanol. This result suggest that by affecting the compartmentation of manganese silicon increases the soluble manganese in vivo, which could partly explain the increase in manganese tolerance of the leaf tissue in presence of silicon.     

Effects of Gliricidia Biochar and Inorganic Fertilizer on Moringa Plant Grown in an Oxisol

Biochar (pyrolyzed biomass) has been shown to have potential in increasing crop yield, particularly in tropical soils. Little information, however, is available on how various biochar types affect crop yield in different soil types in Nigeria. The objective of this study was to investigate the effect of gliricidia biochar on the growth of moringa (Moringa oleifera) plant, which offers numerous medicinal and nutritional benefits to users. A factorial pot experiment was conducted to examine the effect of gliricidia (Gliricidia sepium) biochar (GB) and NPK inorganic fertilizer on the moringa plant. Biochar at five rates of 0, 22, 44, 88, and 176 g in combination with NPK 15:15:15 inorganic fertilizer at five rates of 0, 0.3, 0.6, 1.2, and 2.4 g were added to 10 kg sandy soil classified as Oxisol. There was a positive but comparable effect of applying gliricidia biochar and inorganic fertilizer. Tree height, stem diameter, and dry-matter mass increased with increase in application rates of the amendments. The main effects of biochar and fertilizer on different plant parameters were significant but the effects of the interaction of biochar and fertilizer were not significant. The results established that in places where inorganic fertilizers are limited, gliricidia biochar could be applied to produce healthy moringa seedlings.     

Influence of N form on growth photosynthesis of Phaseolus vulgaris L. plants

Many plant species are characterized by pronounced sensitivity to sole ammonium supply and exhibit growth depression and particularly reduced leaf growth rates. Stress symptoms under sole ammonium supply may be related to perturbation of photosynthetic processes, e.g., low rates of net CO₂ assimilation, low quantum yield, reduced stomatal conductance, and carboxylation capacity. The results of three experiments with French bean plants supplied with an N concentration of 5 mM illustrate significantly lower dry mass and specific leaf area, reduced leaf expansion, and higher chlorophyll and N content of ammonium‐ compared to nitrate‐supplied plants. Light‐saturated rates of CO₂ assimilation (A_max) per unit leaf area were higher under ammonium compared to nitrate supply while no significant effects of N form on quantum yield and A_max per unit leaf weight and chlorophyll were found. Maximal carboxylation (V_cmax) and electron‐transport (J_Max) rates were significantly higher under ammonium supply only in one of three experiments. V_cmax was linearly related to total leaf N, the slope of the regression was similar with both N forms, the x‐axis intercept was significantly higher for ammonium‐ compared to nitrate‐supplied plants. The ratio V_cmax : J_Max was not affected by N form. It is concluded that ammonium supply had no negative effects on the operation of photosynthetic protein‐enzyme complexes.     

Exogenous Spermidine Affected Leaf Characteristics and Growth of Common Bean Under Water Deficit Conditions

In order to investigate the effects of exogenous spermidine on water limitation-induced damage on common bean (Phaseolus vulgaris L.) genotypes, a field experiment was conducted over two growth seasons. The experiment was arranged as a split-split plot design and three replications. Treatments were three water stress levels (non-stress, moderate and severe stress), three bean genotypes (Akhtar, Pak and COS12) and two spermidine levels (control and foliar application). The results showed that water stress reduced markedly leaf relative water content, SPAD values, specific leaf area, leaf area index, plant height, relative growth rate, shoot dry weight and grain yield; however, increased leaf density, leaf relative electrolyte leakage, stomatal density, leaf angle and leaf temperature of bean genotypes. Spermidine application increased relative water content, SPAD values, leaf area, leaf area index, shoot dry weight and grain yield. Overall, exogenous spermidine usage as a free radical scavenger counteracted deleterious water deficit effects.     

Germination,growth and ions uptake of moringa (Moringa oleifera L.) grown under saline condition

Salinity is the major environmental stress that affects the growth and productivity of plants. The present study was conducted to determine the effect of salinity on growth and ions uptake by moringa (Moringa oleifera L.) plant. The experiment was carried out in two phases. Initially, a germination test was conducted in the laboratory under the different salinity levels (control, 5, 10, 15, and 20 dS m^?1) and found that moringa seeds were germinated only at 5 and 10 dS m^?1 salinity levels, and no germination occurred at higher salinity levels (15 and 20 dS m^?1). The experiment was laid out in a completely randomized design (CRD) with five replications. In the second phase, three-week old nursery grown plants of moringa were shifted in pots under the five salinity levels (control, 5, 10, 15, and 20 dS m^?1). The experiment was laid out in CRD and replicated four times. In pot experiment, the root, shoot length, and dry weights were significantly affected by increasing the salinity levels. The uptake of K⁺ and Ca²⁺ was highly affected at different salinity levels as compared to control and Na⁺ ions accumulation was higher in roots rather than shoot. The results reveal that moringa plant can germinate, survive, and can be cultivated in areas with moderate saline condition.     

Relationship between spring triticale physiological traits and productivity changes as affected by different N rates

There is still a lack of knowledge about the physiological traits of spring triticale (x Triticosecale Wittm.) and their relationship with grain yield and protein content under the conditions of the environmental Zone Nemoral 2. The objective of this study was to determine the relationships among the physiological indices, grain yield and protein content as affected by nitrogen (N) rates. The correlation among leaf area index (LAI), chlorophyll index (SPAD), canopy greenness index (CGI), leaf area duration (LAD) and grain yield as well as direct and indirect effects of those traits on the yield were investigated using a path analysis. Grain yield, protein content and physiological indices were significantly (P?≤?.01) affected by N fertilization. N₉₀ level was the best compromise for the yield and physiological indices. The interaction of all physiological indices influenced the grain yield by 27–39%, protein by 42–44%. SPAD and LAI had greater influence on grain yield and grain protein than CGI and LAD. SPAD had positive direct dominant (the highest) effect on the yield only at BBCH 59 and BBCH 69 (50% of the tested cases). LAI was responsible for 19–39% of the correlation between yield and physiological indices. The physiological indices can be used for spring triticale growth modelling and agronomic management for improved productivity and grain quality. SPAD and LAI values, established at BBCH 45–69, can be used for grain yield prediction and those estimated at BBCH 69 can be used for grain protein prediction.

Abbreviations BBCH: Biologische Bundesantalt, Bundessortenamt und Chemische Industrie (decimal system for a uniform coding of phenologically similar growth stages of all mono- and dicotyledonous plant species); CGI: canopy greenness index; GS: growth stage; LAD: leaf area duration; LAI: leaf area index; SPAD: chlorophyll index (soil plant analysis development)     

不同液体有机肥对新疆棉花生长及土壤养分的影响

为研究不同液体有机肥对新疆棉花生长及土壤养分的影响，进而确定滴灌棉田最适宜的液体有机肥类型，为优化新疆滴灌棉花施肥技术提供理论依据，采用盆栽试验，设置5个处理包括不施肥（CK）、常规施肥（化肥，CF）、含氨基酸液体有机肥（AF）、含腐殖酸液体有机肥（HF）、酸性有机肥浸提液（BF），考察了不同施肥处理对棉花生长、叶片光合能力、产量构成、土壤养分以及养分利用率的影响。结果表明：与CF处理相比，不同液体有机肥均能促进棉花生长，提高土壤有效养分含量。其中，AF处理较CF处理显著提高了棉花叶片气孔导度（G_s），增加7.18%；与CF处理相比，HF处理对棉花株高、茎粗、叶片蒸腾速率（T_r）、总根表面积的促进作用最显著，分别增加了6.38%、3.92%、11.01%和14.52%~11.84%，棉花茎和地下部干物质量最高；BF处理棉花总根长显著提高41.21%~49.48%，同时叶片净光合速率（P_n）最强，棉花单株成铃数、衣分最高，棉花蕾铃、籽棉和整株干物质量显著提高了27.91%、11.83%和9.76%。对于土壤理化性质，AF、HF和BF处理较CF处理均显著提高了土壤有效磷含量；BF处理显著降低了土壤pH，且土壤有机质、碱解氮和速效钾含量均高于其他处理。BF处理棉花肥料偏生产力、肥料农学效率和肥料贡献率较CF处理提高了5.83%~19.33%，显著高于其他处理。总之，3种液体有机肥均能促进棉花生长，增加棉花干物质积累，提高土壤有效养分含量以及肥料利用率，其中以酸性有机肥浸提液效果最佳。因此，在滴灌棉田应用酸性有机肥浸提液可以获得更高的棉花产量及肥料利用率，有利于新疆滴灌棉田可持续发展。     

Interactive effects of biochar and micronutrients on faba bean growth,symbiotic performance,and soil properties

Leguminous crops are significantly involved in the global symbiotic biological N₂ Fixation (BNF), an eco‐friendly process in the agriculture system. Biochar is considered as a vital amendment in improving growth and quality of crops and soils. Few investigations have been conducted to determine the combination effect of biochar with microelements on growth of legumes and soil properties. This study was designed to study the effect of soybean straw‐derived biochar (SSDB) with or without microelements on soil microbial and chemical properties, growth, yield, and seed chemical composition of faba bean (Vicia faba L.). Results revealed that dehydrogenase (DHA) and phosphatase (P‐ase) activities were markedly improved with the increase of SSDB rates under addition of microelements and their highest values were recorded after 90 d. Significant increases were noticed in nodulation activities, nodulation numbers (30.1–72.8), concentrations of N (1.62–1.93%), P (0.15–0.21%), and K (0.53–0.67%), and seed chemical constituents due to the addition of SSDB in the presence of microelements. Moreover, the combination of biochar with microelements caused significant changes in microbial counts. Overall, this investigation shows the potential and role of SSDB in enhancing the growth quality of faba bean seeds as well as an improvement of soil characteristics.     

烟草配方肥增效剂对烤烟根系内源激素和多胺含量的影响

本试验研究了烟草配方肥增效剂对进入成熟期后烟株根系内源激素含量和多胺含量以及烟叶产量和产值的影响.结果表明,施用配方肥增效剂可提高烟株根系内赤霉素(GA3)、生长素(IAA)和精胺含量,降低脱落酸(ABA)和腐胺含量,其中精胺含量随着肥料用量的减少而增加.前期,配方肥增效剂对根系内亚精胺含量的影响很小,但后期会导致亚精胺含量迅速增高.增效剂对根系内源激素含量和多胺含量的影响以每株施用45.45g配方肥和0.4545g增效剂处理效果最好.施用增效剂能提高烟叶的产量和产值,减少肥料用量的增效剂处理虽降低了烟叶产量,但因改善了烟叶品质而提高其产值,增效剂对烟叶产量和产值的影响以每株施用36.36g配方肥和0.4545g增效剂处理效果最好.