水稻除草剂敏感基因导入恢复系的研究

以农林８号ｍ为主体亲本与优良恢复系杂交,成功地将除草剂（苯达松）敏感基因转育到恢复系中,携带该基因的恢复系不但对苯达松敏感（抽穗期用１８００￣２７００ｍｌ／ｈｍ＾２苯达松喷施可使整穗或整株死亡）,而且所配组合具有较强的杂种优势。     

稻田水分管理方式对水稻光合速率和水分利用效率的影响

以超级杂交稻两优培九和中优6号为材料, 设3个不同水分管理措施,在穗分化期、开花期和花后20 d分别测定叶片光合速率和水分利用率。结果表明:不同水分管理方式影响水稻地上部干物重、叶面积指数、光合速率、蒸腾速率和水分利用效率。水分好气灌溉管理地上部干物重和水分利用效率明显增加;水分低水位管理蒸腾速率、地上部干物重和叶片水分利用效率下降。淹水灌溉地上部干物重、叶面积指数、叶片光合速率和水分利用率较低。因此,水稻好气灌溉有利于光合物质积累,显著增产和提高水分利用效率。试验还表明这3种水分管理对稻米蛋白质含量的影响不显著。     

我国南方大豆地方品种农艺和品质性状的遗传参数分析

由南方13省区的3769份夏大豆地方品种按省分层随机抽样而得的143份材料组成地方群体;由20份南方夏大豆推广品种及品系组成改良群体,在南京两年三重复试验表明,南方地方群体主要特点是晚熟(132.56天),秆较矮(58.05cm),中粒(14.34g/100粒),底荚高(18.47cm),分枝中等(3.86),产量低(1199.25kg/ha),蛋白质含量高(43.73％)、脂肪含量中等(20.19％)。该群体农艺和品质性状具有丰富的遗传变异,并由5％相对遗传进展特点将45个性状分为,GSI:极大(>40％);GSⅡ:大(40％—10％);GSⅢ:中等(10％—5％);GSⅣ:一定(<5％)等四类,其中GSⅠ、GSⅡ类多属产量、生育期、粒茎比、株高、百粒重等农艺性状,GSⅢ、GSⅣ类多属蛋白质含量及其氨基酸组分、脂肪含量等品质性状。     

太湖中大银鱼_太湖新银鱼和寡齿新银鱼群体的遗传结构

利用ＲＡＰＤ技术对太湖中的大银鱼,太湖新银鱼,寡齿新银鱼的遗传结构进行了研究,共在太湖中的６个采样片采到大银鱼和太湖新银鱼样品,在两个采样片得到了寡齿新银鱼的样品。结果表明,太湖中不同水域的三种银鱼没有明显的遗传差异,三种银鱼中,大银鱼的遗传相似性指数显示最大,太湖新银鱼的次之,寡齿新银鱼的最小,说明大银鱼的遗传变异性最小,寡齿新银鱼的最大,太湖新银鱼的遗传变异性界两者之间。     

Zinc exposure has differential effects on uptake and metabolism of sulfur and nitrogen in Chinese cabbage

Zinc (Zn) is a plant nutrient; however, at elevated levels it rapidly becomes phytotoxic. In order to obtain insight into the physiological background of its toxicity, the impact of elevated Zn²⁺ concentrations (1 to 10 μM) in the root environment on physiological functioning of Chinese cabbage was studied. Exposure of Chinese cabbage (Brassica pekinensis) to elevated Zn²⁺ concentrations (≥ 5 μM) in the root environment resulted in leaf chlorosis and decreased biomass production. The Zn concentrations of the root and shoot increased with the Zn²⁺ concentration up to 68‐fold and 14‐fold, respectively, at 10 μM compared to the control. The concentrations of the other mineral nutrients of the shoot were hardly affected by elevated Zn²⁺ exposure, although in the root both the Cu and Fe concentrations were increased at ≥ 5 µM, whereas the Mn concentration was decreased and the Ca concentration strongly decreased at 10 µM Zn²⁺. The uptake and metabolism of sulfur and nitrogen were differentially affected at ≥ 5 µM Zn²⁺. Zn²⁺ exposure resulted in an increase of sulfate uptake and the activity of the sulfate transporters in the root, and in enhanced total sulfur concentration of the shoot, which could be ascribed partially to an accumulation of sulfate. Moreover, Zn²⁺ exposure resulted in an up to 6.5‐fold increase in water‐soluble non‐protein thiol (and cysteine) concentration of the root. However, nitrate uptake by the root and the nitrate and total nitrogen concentrations of the shoot were decreased upon Zn²⁺ exposure, demonstrating the absence of a mutual regulation of the uptake and metabolism of sulfur and nitrogen at toxic Zn levels. Evidently, elevated Zn²⁺ concentrations in the root environment did not only disturb the uptake, distribution and assimilation of sulfate, it also affected the uptake and metabolism of nitrate in Chinese cabbage.     

Interaction between protein, phytate, and microbial phytase. In vitro studies

The interaction between protein and phytate was investigated in vitro using proteins extracted from five common feedstuffs and from casein. The appearance of naturally present soluble protein-phytate complexes in the feedstuffs, the formation of complexes at different pHs, and the degradation of these complexes by pepsin and/or phytase were studied. Complexes of soluble proteins and phytate in the extracts appeared in small amounts only, with the possible exception of rice pollards. Most proteins dissolved almost completely at pH 2, but not after addition of phytate. Phytase prevented precipitation of protein with phytate. Pepsin could release protein from a precipitate, but the rate of release was increased by phytase. Protein was released faster from a protein-phytate complex when phytase was added, but phytase did not hydrolyze protein. Protein was released from the complex and degraded when both pepsin and phytase were added. It appears that protein-phytate complexes are mainly formed at low pH, as occurs in the stomach of animals. Phytase prevented the formation of the complexes and aided in dissolving them at a faster rate. This might positively affect protein digestibility in animals.     

Influence of storage practices on acrylamide formation during potato frying

A number of parameters linked to storage of potatoes were evaluated with regard to their potential to influence the acrylamide formation in French fries. Acrylamide, which is a potential human carcinogen, is reported to be formed during the frying of potatoes as a result of the reactions between asparagine and reducing sugars. This study was conducted using three potato varieties (Bintje, Ramos, and Saturna) typically used in Belgium, The Netherlands, and the northern part of France for French fry and crisp production. Saturna, mainly used in crisp production, appeared to be the least susceptible for acrylamide formation during frying. Especially storage at low temperatures (4 degrees C) compared to storage at 8 degrees C seemed to enhance acrylamide formation due to a strong increase in reducing sugars caused by low-temperature storage. Because of the reversible nature of this physiological reaction, it was possible to achieve a significant reduction of the reducing sugars after a reconditioning of the cold-stored potatoes for 3 weeks at 15 degrees C. All changes in acrylamide concentrations could mainly be explained by the reducing sugar content of the potato (R2 = 0.84, n = 160). This means that, by ensuring a low reducing sugar content of the potato tuber, the risk for acrylamide formation will largely be reduced. Finally the use of a sprout inhibitor did not influence the composition of the potato, and thus acrylamide formation was not susceptible to this treatment.     

Primary and secondary metabolite composition of kernels from three cultivars of Portuguese chestnut (Castanea sativa Mill.) at different stages of industrial transformation

Chestnut (Castanea sativa) is an important basic food in rural diets and a major starch crop used in a similar way to potatoes. Chestnuts are a fundamental economic resource in the "chestnut regions" not only for the fruit but also for the chestnut wood. Chestnuts have become increasingly important with respect to human health, for example, as an alternative gluten-free flour source. Chestnuts are also a rich source of other beneficial compounds, but there have been few studies on the composition during processing. In this study, we analyzed the chemical composition of three Portuguese cultivars at different stages of industrial processing. The chestnut cultivars were Longal, Judia, and Martaínha. All three cultivars had high moisture contents but were low in ash, crude fat, and crude protein contents, with high starch and low fiber contents. The free amino acid contents, including various essential amino acids, varied depending on the cultivar. All three cultivars also had a significant content of polyphenolics with gallic acid; ellagic acid was predominant among hydrolyzable and condensed tannins. Many of these compounds are known to exert significant positive effects on human health. The one-way analysis of variance for fresh chestnut shows significant differences among the three cultivars for most of the studied parameters. The same statistical analysis applied to each one of the two cultivars (Judia and Longal) sampled for the four processing steps analyzed indicates a significant effect of this factor in practically all of the constituents. On the other hand, the two-way analysis of variance shows that, besides the residual, the processing step and the interaction cultivar x processing step were the factors that more contributed for the total variation observed in the constituents analyzed, while the contribution of cultivar was much less significant.     

Validating the use of Cs measurements to estimate rates of soil redistribution by wind

Wind erosion has degraded over one-half billion hectares of land worldwide. ¹³⁷Cesium (¹³⁷Cs) has been used as a tracer to study long-term rates of soil redistribution by water and, to a lesser extent, by wind. Early studies assumed that the decline in ¹³⁷Cs activity for a potentially eroded soil relative to that for an uneroded soil was linearly proportional to soil loss. More recently, models have emerged that consider the effects of soil cultivation and the particle surface area-dependent partitioning of ¹³⁷Cs on soils. We investigated the partitioning of ¹³⁷Cs in wind-eroded sediments and with soil surface samples sieved into contiguous ranges of particle sizes. We also compared the ¹³⁷Cs activities and stratification of several adjacent soils with known wind erosion and deposition histories. Finally, we tested ¹³⁷Cs-based soil loss models with measured data from sites with documented histories. ¹³⁷Cs activities and mean particle diameters of aeolian samples agreed well with the ¹³⁷Cs activities and respective mean diameters of the sieved surface soil samples. Good agreement between model estimations and measured data indicated that ¹³⁷Cs models developed to estimate soil redistribution by water were also applicable to soil redistribution by wind provided that the models contained an appropriate particle size correction parameter.     

辣椒细胞质雄性不育系离体培养植株再生研究

以辣椒细胞质雄性不育系9704A和8214A为试材，取无菌苗真叶进行培养。研究了不同浓度的IAA,6-BA和GA3对不定芽的诱导和伸长作用，结果表明：MS+6-BA5.0 mg/L +IAA1.0 mg/L有利于不定芽的诱导。MB+IAA1.0 mg/ L +6-BA3.0 mg/L + GA32.0 mg/L +AgNO310.0 mg/L有利于芽的伸长。将2.0 cm以上的芽转入生根培养基诱导不定根发现：1/2Ms+IAA0.3~0.5 mg/L有利于不定根的诱导。