1-MCP对外源乙烯诱导油桃果实软化的影响

以秦光油桃为试材,研究了1-MCP处理对外源乙烯诱导果实软化的影响.结果表明,1-MCP处理可抑制外源乙烯诱导果实硬度的下降,将乙烯诱导果实的淀粉、纤维素和果胶类物质的降解延迟2天,对引起这些物质降解的相关酶类如淀粉酶、纤维素酶和多聚半乳糖醛酸酶(PG)等酶活性高峰的到来推迟2天,同时降低了多聚半乳糖醛酸酶(PG)活性高峰值.     

贮藏环境乙烯对不同低温下库尔勒香梨果实品质的影响

以新疆库尔勒香梨为试材,研究其在-1℃和2℃下不同乙烯浓度(0,自发气调,100μL/L)环境中果实外观色泽和内在品质等的变化规律。结果表明,与环境中的乙烯相比,温度对贮藏期间的果实品质影响较大;贮藏于-1℃的果实果皮颜色保持较好,硬度较高,腐烂率较低,而贮藏于2℃的果实品质则相对较差;相同温度条件下,处于自发气调环境中的果实腐烂率较低,果柄保鲜指数较高,但不同乙烯浓度处理对库尔勒香梨果实的硬度、可溶性固形物含量、可滴定酸(TA)含量以及VC含量等品质指标的影响无明显规律性。     

1-MCP对磨盘柿成熟软化的影响

采用不同浓度的1-MCP(1-甲基环丙烯)和不同处理温度对磨盘柿果实成熟软化的影响进行了研究.结果表明,适宜的1-MCP处理(浓度0.1～1 uL/L)可明显地延缓磨盘柿果实硬度下降,降低果实呼吸强度,推迟呼吸高峰的出现,并能显著地抑制果实乙烯释放,推迟其成熟软化,对延长磨盘柿贮藏期具有一定的作用.     

乙烯分解纳米光催化反应器关键性能参数研究

果品与蔬菜在采后贮藏过程中所产生和释放的乙烯是加速成熟、衰老和腐烂的重要环境因子。该研究采用纳米光催化技术开发设计了一种可以去除气调库中乙烯的玻璃管光催化反应器，并对其主要性能参数进行了模拟测试与分析。结果表明：气体流量、玻璃管直径与长度以及光源种类均是影响光催化反应器乙烯分解性能的主要因素。在该试验条件下，气体流量在40～80 L/h的范围内较佳；玻璃管的适宜内径为50 mm；在相同功率条件下黑光灯的光催化效果优于紫光灯。光催化反应器可以多级串联使用，以便提高系统的乙烯分解能力。这些研究结果为气调库用光催化乙烯分解装置设计提供了基础设计参数和指标。     

Ozone sensitivity of Phaseolus vulgaris in relation to cultivar differences,growth stage and growing conditions

Exposure of Phaseolus vulgaris cv. Lit to ambient ozone caused a 14% pod yield reduction in 1994. This yield loss was assessed by comparing plants that were protected against ozone by treatment with EDU (ethylenediurea) with unprotected plants, both cultivated in pots with a continuous water supply. The plants had experienced an AOT40 of 8135 ppb.h during their growth. However, plant response to ozone depends on a large number of environmental and plant-specific conditions. Visible injury increased mainly after flowering and was much less severe on soil-grown bean cultivars (Lit, Stella and Groffy) not receiving additional water. Ozone fumigations in closed chambers before or after flowering proved that the growth stage during which the plants are exposed also plays a very important role with regard to injury development. Plants seem to be more susceptible during the generative growth stage and the relative cultivar sensitivity was related to the developmental stage during fumigation. However with regard to yield effects the timing of the ozone exposure seems to be less important.     

钙和ABA在番茄果实乙烯生物合成中的相互作用

研究了钙和ABA对不同成熟阶段和不同成熟模式番茄(Lycopersicon esculentum cv．Lichun)果实乙烯生成的影响，分析两者在乙烯生物合成系统中的相互作用。普通番茄绿熟果实组织圆片在用100μmol／L ABA和100mmol/L钙处理后，乙烯生成均很快增加。当用这两种试剂同时处理番茄果实圆片时，乙烯生成增加量明显比单一处理增加量大，表明两者在对绿熟番茄果实乙烯生成的影响中有协同作用关系。钙离子鳌合剂EGTA(乙二醇双乙胺醚-N，N’-四乙酸)对乙烯生成有抑制作用，用ABA和EGTA同时处理番茄圆片时，乙烯的生成量比EGTA单一处理的生成量要高。当用这些试剂处理未成熟番茄果实则产生不同的效果，ABA明显抑制乙烯生成，而钙却依然促进乙烯的生物合成，ABA和钙同时处理果实时，乙烯生成量介于二者单一处理之间，表明ABA和钙在未成熟番茄果实乙烯生成中表现出相互抑制作用。在转反义ACS番茄中，ABA和钙抑制未成熟果实的乙烯生成，而都促进了绿熟果实的乙烯生成。这表明ABA和钙在番茄果实不同成熟阶段和不同成熟模式的乙烯生物合成过程中有着不同的相互作用关系。     

梅果采后软化与乙烯释放及抗氧化酶活性的变化

研究了青梅果实采后果肉硬度、乙烯释放量及抗氧化酶活性变化。结果显示，果肉硬度3d后急剧下降，5～7d下降最快，而乙烯释放量5d后则迅速上升，于第9天达到高峰，果实硬度下降与乙烯释放上升呈显负相关(r=-0．7823)。SOD和POD活性于采后3d开始迅速升高，第5天同时达到峰值。CAT活性一直下降，第5天后检测不出。MDA含量呈峰型变化。     

三种微生物肥料固氮活性的检测及方案

本项研究采用目前国际上普遍公认的研究生物固氮活性的方法（乙炔还原－气相色谱法）对３种微生物固氮菌肥的固氮活性进行检测，并尽可能地排除检测过程中可能导致乙炔还原生成的乙烯和多种导致乙烯产生的非固氮菌因素，从而保证分析数据的真实性．在系统设计方案的基础上，对不同产地的３种固氮菌肥进行了认真的检测．     

Effects Of Potassium,Phosphorus And Nitrogen Fertilization On Endogenous Ethylene And Quality Characteristics Of Apples (Malus Domestica L.)

Factor analysis of the data from experiment one with fertilization of ‘Spartan’ apples using various levels of nitrogen, phosphorus, and potassium and their interactions showed significances between ethylene and potassium, soluble solids and potassium, acidity and phosphorus, ethylene and phosphorus, and between ethylene and nitrogen. Factor analysis of data from experiment two with twenty apple cultivars showed that maturation time and ethylene were positively associated, whereas ethylene was inversely related to acidity that is reduced during the apple fruit maturation, and soluble solids are produced during apple fruit maturation. The effects of potassium on ethylene could be through promotion of enzyme activation, promotion of protein synthesis and increased solute transport in the xylem and phloem. Production of ethylene through soluble solids could be due to increased synthesis of the amino acid cysteine that is precursor of ethylene that may be extended to synthesis of other amino acids. The decreasing concentration of malic acid during fruit maturation may be due to increasing rates of several enzymes involved in the citric acid and glyoxylate cycles that are delivering precursors to synthesis of amino acids and porphyrins. The significant relationships between soluble solids and potassium and between acidity and phosphorus may increase the synthesis of nucleic acids and improve energy supply through adenosine phosphates. The significance between ethylene and nitrogen may also increase synthesis of amino acids, proteins and enzymes. On this basis it may be concluded that the three major minerals nitrogen, phosphorus and potassium are very important for apple fruit maturation because they may be involved in several biochemical processes.     

外源乙烯处理对黄冠梨果皮褐变和货架期品质的影响

为了避免黄冠梨果实在低温贮藏（0 ℃左右）条件下果皮褐变的发生,该研究采用5、20和100 μL/L外源乙烯对黄冠梨进行贮前处理,以0 ℃贮藏下无外源乙烯处理作为对照组,以采后恒温至30 ℃、逐步降温至0 ℃处理作为程序降温组。通过外源乙烯处理组与对照及程序降温组的对比,探讨采后外源乙烯处理对黄冠梨果皮褐变与果实品质的影响。结果表明,不同浓度的外源乙烯处理均能完全抑制褐变的发生,且表皮无伤害,而程序降温组的发病指数为10%,对照组则高达37.6%。货架期结束时（6 d）外源乙烯处理组的果实硬度与对照组差异显著（P < 0.05）。外源乙烯各处理组果实含水率均高于对照及程序降温组（P < 0.05）,利用低场核磁共振技术检测发现对照组自由水含量最高,5和100 μL/L外源乙烯处理组自由水含量较低。与对照组和程序降温组比较,外源乙烯处理对黄冠梨果实中可溶性固形物、可滴定酸、可溶性糖和抗坏血酸等果实品质指标都能起到提高或者维持的效果,其中5 μL/L处理浓度的效果较优。研究结果表明,贮前外源乙烯处理是一种既能抑制黄冠梨果皮褐变又能保持果实货架期品质的高效、简便的技术。