Soil degradation during the period 1967–1995 in Bangladesh

Long-term changes in carbon and nitrogen storage in the top 100 em layers of soils from different physiographic units in Bangladesh were evaluated using 460 soil samples from 43 profiles collected in 1967 and 1994/95. The study area consisted of ten physiographic units, viz.: Old Himalayan Piedmont Plain (OHP), Tista Floodplain (TF), Barind Tract (BT), Ganges Floodplain (GF), Madhupur Tract (MT), Brahmaputra Floodplain (BF), Meghna River and Estuarine Floodplain (MF), Surma-Kushiyara Floodplain (SKF), Northern and Eastern Piedmont Plain (NEP), and Chittagong Coastal Plain (CCP).

During the period 1967–1995, mean values of soil carbon and nitrogen declined by 16.2 t C ha^-1 and 1.38 t N ha^-1 in Bangladesh. The total carbon and nitrogen budgets showed a fall of 42.8 × 10⁶ t C and 3.36 × 10⁶ t N within the 27 y period in Bangladesh. All the physiographic units showed a decline in carbon and nitrogen contents except for BT which showed an increase of 3.76 t C ha^-1 and 0.77 t N ha^-1 for these elements. MT showed the highest decline in carbon (30.5 t C ha^-1) and nitrogen (3.25 t N ha^-1). The lowest decline in carbon was observed in SKF (7.18 t C ha^-1) while the same applied to nitrogen in GF (0.50 t N ha^-1). The other physiographic units showed a moderate decline in the contents of these elements.

Based on the land area occupied by the sampled soil series of each physiographic unit, GF showed the highest decline of 13.7×10⁶ t C and a moderate decline of 0.52 × 10⁶ t N. Decrease in the carbon level for BF was moderate (9.31 × 10⁶ t C) but the decline in the nitrogen level was the highest (0.95 × 10⁶ t N). Decrease in the amount of carbon and nitrogen stored for the other physiographic units was: OHP (0.67 × 10⁶ t C, 0.03 × 10⁶ t N), TF (2.54 × 10⁶ t C, 0.25 × 10⁶ t N), MT (4.28 × 10⁶ t C, 0.45 × 10⁶ t N), MF (6.06 × 10⁶ t C, 0.61 × 10⁶ t N), SKF (2.87×10⁶ t C, 0.24×10⁶ t N), NEP (2.68×10⁶ t C, 0.22×10⁶ t N), and CCP (0.81 × 10⁶ t C, 0.11 × 10⁶ t N). Increase in carbon and nitrogen contents was only observed in BT (0.08 × 10⁶ t C, 0.02 × 10⁶ t N).     

Effects of Temperature during Seedling Stage on Growth and Nutrient Absorbance of Gerbera jamesonii Growing in Organic Substrate

The effects of different temperature treatments during the seedling stage on growth and nutrient absorbance of Gerbera jamesonii cv ‘Sunshine Coast’ growing in the organic substrate were investigated. The temperature treatments were conducted in growth chamber where the day/night temperature were set to 15/10, 20/15, 25/20, and 30/25°C individually. The results showed that the fresh and dry weight of aboveground part and that of roots, average number of leaves and lateral roots were greater at 30/25°C than other treatments. The highest level of macro elements nitrogen (N), phosphorus (P), and potassium (K) in the leaf samples were also detected at 25/20°C and 30/25°C. However, there was no significant influence of different temperatures on zinc (Zn) levels in leaves. In general, the day temperature 25～30°C and night temperature 20～25°C are thought to be the better temperature condition for gerbera growth as well as the nutrient uptake and accumulation in the plants during the seedling stage.     

适宜与大棚基质栽培番茄套作的大蒜品种及其套播期研究

 筛选适宜与大棚基质栽培番茄套作的大蒜品种和套播期,旨在为番茄/大蒜基质栽培高效模 式的建立提供技术支撑。‘迪芬尼’番茄于2011 年7 月31 日定植,其生长期间选用极早熟、早熟、中晚 熟大蒜品种‘正月早’、‘蔡家坡红皮’和‘改良蒜’,设3 个套播期,即9 月1 日、9 月21 日、10 月11 日,测定大蒜和春茬番茄（2012 年3 月30 日定植）生长量及产量。结果表明：9 月1 日套播的大蒜比9 月21 日和10 月11 日套播的出苗日期早,但出苗时间长;套播过早,大蒜受秋茬番茄遮阴造成的弱光胁 迫时间长,导致收获株率低;中晚熟大蒜品种‘改良蒜’的横径最大值、横径最小值、纵径、周长、单 头质量大于其它两个品种。套作大蒜对春茬番茄影响较大,与‘改良蒜’套作显著降低了番茄产量。9 月 21 日套播极早熟大蒜品种‘正月早’,净收益显著高于单作番茄。因此确定在陕西关中地区,适宜与大棚 基质培番茄套作的大蒜品种是‘正月早’,其适宜套播期为9 月21 日。     

套蒜次数对大棚基质栽培番茄生长及基质理化性质的影响

探讨大棚基质栽培番茄套蒜1次和2次后对基质理化性质的变化及对番茄生长、产量的影响,为制定合理的套作措施提供理论依据。设置3个处理,分别是连作3茬番茄的基质中番茄单作、套过1次大蒜的基质中番茄单作和番茄/大蒜在套过1次大蒜的基质中继续套作。结果表明,番茄整个生育期内基质pH为7.3~7.7,变化幅度很小;由于施肥的影响,基质电导率在结果前期最高,之后随番茄、大蒜生长对养分的吸收较多导致其持续下降。番茄结果中期以前,套蒜1和2次基质的碱解氮含量均显著低于番茄单作,这是由于套蒜对基质速效氮消耗多于单作;套蒜显著提高基质中速效磷和速效钾的含量;增加基质中细菌和放线菌数量,降低真菌比例,且套作2次大蒜基质中的放线菌数量少于套作1次的基质。不同套蒜次数对秋茬番茄生长和产量无显著影响。因此,推荐在实际生产中通过基质栽培番茄套作大蒜来提高经济效益。     

Technical efficiency of hybrid maize growers: A stochastic frontier model approach

This study investigated the effect of credit constraints and credit unconstraints on the technical efficiency of hybrid maize growers in the Khyber Pakhtunkhwa Province(KPK) of Pakistan. The primary data were collected by a direct elicitation method from 510 maize growers of KPK Province. Stochastic frontier model techniques were used for technical efficiency analyses. The results revealed that the mean technical efficiency difference between the two groups was 10.2%. The results of technical inefficiency effect modeling demonstrated that education of the household head, family size, number of married family members, off-farm income, farming experience, tractor drill, water irrigation through a lined course, certified seed, extension services, household saving variables, and a credit size variable had positive effects on technical efficiency for both credit constrained farmers(CCFs) and credit unconstrained farmers(UCCFs). In addition, age of household head and fragmented land values had negative effects on technical efficiency for both groups. However, the interest rate had positive and negative impacts on the technical efficiency of CCFs and UCCFs, respectively. Our results have significant implications for policies related to land use, interest rate, and banking sector expansion in the rural areas of Pakistan.     

Zinc seed priming improves salt resistance in maize

Salt stress is a major yield‐limiting factor in crops by reducing nutrient uptake and plant growth. Under salt stress, decreased water and nutrient uptake results in nutrient imbalance in plants. In addition, at high pH in saline conditions, solubility of minerals is also reduced leading to low availability of certain nutrients. Perspectives to overcome these limitations by Zn seed priming were studied with maize plants exposed to NaCl as salt stress. Maize seeds were primed for 24 hr in deionized water and 4 mm ZnSO₄·7H₂O solution (ZnP) and subsequently air‐dried at room temperature before further use. The DTZ (diphenylthiocarbazone) staining method was used for showing Zn²⁺ localization in the seeds. Zn²⁺ and other nutrient concentrations in unprimed, water and ZnP seeds and maize plants were analysed by inductively coupled plasma mass spectroscopy (ICP‐MS). Maize plants (cv. Sun star L.) were grown for 3 weeks in complete nutrient solution with or without salt stress (100 mm NaCl) under glasshouse conditions. Seed Zn²⁺ contents were increased after ZnP treatment by 600%. In maize seeds, most of the primed Zn²⁺ accumulated in the outer tissues (particularly, aleurone layer) of maize seed. Zn priming decreased the injurious effects of salt stress on plant growth. Under salt stress conditions, biomass production of plants from ZnP treatments was 25% higher compared to water priming treatment. Zn seed priming also improved mineral nutrient status of plants grown in both control and salt stress conditions. Plants from ZnP treatments also showed higher accumulation of Na⁺ in the shoots. This offers perspectives for using Zn seed priming for improving early seedling development and plant nutrient status of maize under salt stress conditions.     

Removal of Nickel onto Alkali Treated Rice Bran

Water, Air, & Soil Pollution - Different bases were used for the pretreatment of Rice bran biomass. Pretreatment with bases such as NaOH, Ca(OH)2 and Al(OH)3 were found to improve biosorption...     

玉米铬毒性研究：氧化损伤、渗透调节物质积累、抗氧化防御以及铬的吸收

Agricultural production systems are immensely exposed to different environmental stresses in which heavy metal stress receives serious concerns. This study was conducted to explore the deleterious effects of different chromium(Cr) stress levels, i.e., 0, 30, 6090, 120, and 150 μmol L-1, on two maize genotypes, Wandan 13 and Runnong 35. Both genotypes were evaluated by measuring their growth and yield characteristics, Cr accumulation in different plant tissues, alterations in osmolyte accumulation, generation o reactive oxygen species(ROS), and anti-oxidative enzyme activity to scavenge ROS. The results showed that Cr stress decreased the leaf area, cob formation, 100-grain weight, shoot fresh biomass, and yield formation, while Cr accumulation in different maize tissues was found in the order of roots leaves stem seeds in both genotypes. The increased Cr toxicity resulted in higher free proline soluble sugars and total phenolic contents, and lower soluble protein contents. However, enhanced lipid peroxidation was noticed in the forms of malondialdehyde, hydrogen peroxide(H2O2) and thiobarbituric acid reactive substance accumulation, and electrolyte leakage. The hyperactivity of superoxide dismutase, peroxidase, catalase, ascorbate peroxidase, especially glutathione peroxidase and glutathione reductase indicated that these anti-oxidative enzymes had a central role in protecting maize from Cr toxicity, especially for Wandan 13. Moreover, higher uptake and less translocation of Cr contents into the grains of Wandan 13 implied its importance as a potential candidate against soil Cr pollution.     

Effective Bioremediation of Endocrine-Disrupting Phthalate Esters,Mediated by <Emphasis Type="Italic">Bacillus</Emphasis> Strains

Phthalic acid esters (PAEs) is a class of refractory organic compounds, widely used as additives or plasticizers in plastic industry. PAEs are ubiquitous endocrine-disrupting pollutants and can be degraded by microorganisms. The present study described the assimilation of four PAE mixture (dimethyl, diethyl, dipropyl, and dibutyl phthalate) by two bacillus species: Bacillus thuringiensis and Bacillus cereus, isolated from different agricultural soil and their consortium. Among which, the optimal degradation of 82–96% was achieved by B. thuringiensis. This is the first report on the metabolic breakdown of four basic PAE mixture. The optimum conditions for biodegradation were found to be pH 7, temperature 30 °C, inoculum size 10 mL, and concentration 400 mg/L. Moreover, the respective biodegradation followed the first-order kinetic model. Our results proffered supplementary confirmation of the wide spectrum of PAE utilization by B. thuringiensis and suggest the possibility of applying it for the remediation of PAE contamination waste.