NO^—2对水稻生长发育的影响

大水培条件下，当ＮＯ＾－２浓度低于６０ｋｇ时，秧苗干重，鲜重及含Ｎ量都随ＮＯ＾－２浓度升高而增加；当ＮＯ＾－２浓度超过６０ｍｇ／ｋｇ，干重，鲜重及含Ｎ则随浓度升高而降低，但这种降低可因Ｆｅ＾＋＋的存在而减弱，在相同施Ｎ量下，秧苗干重，苗高，分蘖数和含Ｎ量也会因为ＮＯ＾－２的施用而下降。ＮＯ＾－２显著影响根系呼吸强度和秧苗含水量，根系吸氧量及秧苗含水量随ＮＯ＾－２浓度升而减少。ＮＯ＾－２提高亚硝...     

The Effect of Chitosan and Sodium Alginate on the Growth and Photosynthesis of Soybean

1　Introduction　　Sodium alginate and chitosan are the oceanic natural resources and high molecular com-pound which can promote the plant growth,and protect various plants from harmful organ-isms or prevent plant disease caused by harmful organisms( Makuuch,1 998and Hadwiger,etal. 1 983) .The two materials were used as coating materials,plant promoters,foliar sprayingin soil and so on( Mitchell,1 96 2 ;Brown,982 ;Cuero,1 991 ,Osuji,1 992 ) .Because the two ma-terials are degradable in soil …     

Changes in meat texture of three varieties of squid in the early stage of cold storage

ABSTRACT: The present study examined the changes in texture and protein components during cold storage of different squid varieties. Raw oval squid, Japanese common squid and arrow squid were sliced fresh and the muscles were stored at 4°C for 0, 4, 8, 12, 18, 24, 48 and 120 h. The rheological measurements, protein components and amounts of collagen were examined. The adhesiveness of each squid increased significantly in the early stage of cold storage. In all varieties, penetration decreased at 4 h, which is considered to be rigor mortis, then increased. The amounts of total collagen, 20°C water-soluble collagen and 70°C water-soluble collagen did not change significantly in each variety during cold storage. Sodium dodecylsulfate–polyacrylamide gel electrophoresis (SDS-PAGE) pattern showed that the 580 kDa component gradually disappeared up to 48 h. The correlations between the amounts of 580 kDa component and adhesiveness or firmness were high. Models of fit based on chemical kinetics accurately expressed the behavior of adhesiveness, firmness and penetration showing that 63.2% of adhesiveness changes occurred in 13–19 h and that 63.2% of firmness changes occurred in 18–24 h.     

Microbial and Enzyme Activities of Saline and Sodic Soils

Salinization and sodication are abiotic soil factors, important hazards to soil fertility and consequently affect the crop production. Soil salinization is of great concern for irrigated agriculture in arid and semi‐arid regions of the world; sodicity is characterized by an excessively high concentration of sodium (Na) in their cation exchange system. In recent times, attention has been turned to study the impacts of these factors (salinity and sodicity) on soil microbial activities. Microbial activities play central role in degradation and decomposition of soil organic matter, mineralization of nutrients and stabilization of soil aggregates. To understand the ecology of soil system, therefore, it is important to be conversant with the soil microbial activities, which show quick response to little change in the soil environment. Microbial activities (generally measured as C–N dynamics, soil respiration–basal respiration, or CO₂ emission), microbial abundance, microbial biomass, quotients (microbial and metabolic) and microbial community structure, and soil enzymes have been considered as potential indicators to assess the severity of the land degradation and the effectiveness of land use management. Therefore, it is important to synthesize the available information regarding microbial activities in use and management of salt‐affected soils. The reclamation and management of such soils and their physico‐chemical properties have been reviewed well in the literature. In this review, an attempt has been made to compile the current knowledge about the effects of soil salinization and sodication on microbial and enzyme activities and identify research gaps for future research. Copyright © 2015 John Wiley & Sons, Ltd.     

叠氮化钠处理预辐照冬小麦适宜方法的研究

浸种能显著提高NaN_3对M_1代幼苗的损伤效应,并延迟种子萌发始期。M_1代平均苗高和出苗率随NaN_3浓度的增加或处理时间的延长而降低。γ辐照与NaN_3之间有显著的互作效应。以平均苗高略高于对照的一半为指标,经200Gy~(60)Coγ射线辐照的种子,预浸10—12小时后,用2mM浓度的NaN_3处理2小时,是冬小麦较适宜的处理组合。品种特性不同须稍加调整。     

玉米淀粉制备双醛淀粉的试验

双醛淀粉用途广泛，但在国内几乎没有生产和应用。文中对双醛淀粉的制备工艺进行了系统研究，得出了制备双醛淀粉的最佳工艺条件。试验结果表明：在所选参数下，高碘酸钠氧化淀粉时，高碘酸钠应稍过量；NaIO₄/Starch摩尔比=1.1/1；NaIO₄浓度为0.7 M；反应温度35～40℃；反应时间控制在3 h；pH值在1.2～1.5为好；所得产品中淀粉的醛基含量在95%以上。     

氯化钠影响下蓝藻Anabaena 7120的固氮活性和去铵阻抑

正常培养液中NaCl浓度增高时,蓝藻固氮活性明显下降,去铵阻抑速率也减慢。NaCl浓度越高,阻抑程度越大。如果NaCl浓度过高,固氮酶活性即完全丧失,铵阻抑效应也不能消除。低光照度、光合抑制剂、O_2、N_2以及N_2+CO_2都加剧高浓度NaCl对蓝藻固氮酶活性和去铵阻抑的阻抑,而外源蔗糖、H_2和H_2+O_2则有一定程度的促进。     

Diagnosis of sugar beet (Beta vulgaris L.) nutrient imbalance by DRIS and CND-clr methods at two stages during early growth

High yield of sugar beet require adequate mineral nutrition. To be diagnosed across interacting nutrients using appropriate interpretation models, the plant must be sampled at a critical physiological stage. This study aimed to develop and validate norms at the 7-leaf and well-developed rosette stages, for diagnostic purposes using the Diagnosis and Recommended Integrated System (DRIS) and Compositional Nutrient Diagnosis based on centered log ratios (CND-clr). Data on nutrient concentrations and plant performance were obtained from 409 plots in West-Central Poland. With respect to the growth stages, for physiological and practical reasons, the 7-leaf stage is preferable for diagnostic purposes. At this growth stage, the high-yield subpopulation characterized by higher concentration of potassium and sodium compared to other nutrients. CND-clr indices were closely related to DRIS indices (R² > 0.93). The CND-clr indices, however, better explained the differences in the white sugar yield within the validated dataset than the DRIS indices.     

Drought and salinity: A comparison of their effects on mineral nutrition of plants

The increasing frequency of dry periods in many regions of the world and the problems associated with salinity in irrigated areas frequently result in the consecutive occurrence of drought and salinity on cultivated land. Currently, 50% of all irrigation schemes are affected by salinity. Nutrient disturbances under both drought and salinity reduce plant growth by affecting the availability, transport, and partitioning of nutrients. However, drought and salinity can differentially affect the mineral nutrition of plants. Salinity may cause nutrient deficiencies or imbalances, due to the competition of Na⁺ and Cl^– with nutrients such as K⁺, Ca²⁺, and NO . Drought, on the other hand, can affect nutrient uptake and impair acropetal translocation of some nutrients. Despite contradictory reports on the effects of nutrient supply on plant growth under saline or drought conditions, it is generally accepted that an increased nutrient supply will not improve plant growth when the nutrient is already present in sufficient amounts in the soil and when the drought or salt stress is severe. A better understanding of the role of mineral nutrients in plant resistance to drought and salinity will contribute to an improved fertilizer management in arid and semi‐arid areas and in regions suffering from temporary drought. This paper reviews the current state of knowledge on plant nutrition under drought and salinity conditions. Specific topics include: (1) the effects of drought and salt stress on nutrient availability, uptake, transport, and accumulation in plants, (2) the interactions between nutrient supply and drought‐ or salt‐stress response, and (3) means to increase nutrient availability under drought and salinity by breeding and molecular approaches.