臭氧与海藻酸钠涂膜对葡萄的保鲜效果及其贮藏生理特性的影响

以采后"红地球"葡萄果实为试材,分别设置对照(CK)、250μL/L臭氧处理(O3)、0.3%海藻酸钠涂膜处理(M)、250μL/L臭氧+0.3%海藻酸钠涂膜处理(O3+M),在(0±0.5)℃条件下贮藏,通过测定贮藏过程中葡萄可溶性固形物含量、可滴定酸含量、呼吸强度、硬度、过氧化物酶(POD)、超氧化物歧化酶(SOD)、几丁质酶(CHI)、β-1,3-葡聚糖酶(GLU)的活性以及膜脂过氧化物质丙二醛(MDA)和总酚含量等的变化,统计果实失重率与腐烂率情况,观察各处理对葡萄保藏效果的影响。结果表明:与对照相比,250μL/L臭氧处理、0.3%海藻酸钠涂膜及250μL/L臭氧+0.3%海藻酸钠涂膜复合处理均能显著降低葡萄果实的失重率和腐烂率,抑制葡萄果实的呼吸上升,延缓硬度下降,提高果实抗性相关酶(POD、SOD、GLU、CHI)的活性,减少膜脂的过氧化程度,延缓果实总酚含量下降,有效改善葡萄的贮藏品质,并以250μL/L臭氧+0.3%海藻酸钠涂膜复合处理对葡萄果实保鲜效果最佳。     

热水处理对金柑果实采后腐烂及生理特性的影响

金柑是果皮和果肉同食的柑果类型,对采后处理要求极为严格。该研究以金柑(Fortunella crassifolia)为材料,研究了其经30、40和50℃热水浸泡后果实的腐烂率、失重率、可溶性固形物、硬度、有机酸、细胞渗透率以及抗氧化酶活性变化。结果表明:经30℃热水处理5 min的果实失重率高于对照,而经40℃和50℃处理的果实失重率低于对照或差异不显著。经热水处理的果实总酸含量略低于对照,可溶性固形物含量在18%上下波动且差异不显著。热水处理可提高果实硬度,降低贮藏前期果实细胞渗透率以及贮藏过程中果实过氧化物酶和超氧化物歧化酶活性,激发过氧化氢含量升高,可有效降低贮藏过程中金柑果实腐烂率,但不同采收期的金柑所需的热水处理温度和时间不同。对于1月初采收的果实,处理时间为5 min或10 min可降低果实腐烂率;2月初采收的果实,40℃或50℃热水处理10 min可有效降低果实腐烂率;3月初采收的果实,当处理温度达到50℃,处理时间达到10 min,才可有效降低果实腐烂率,且对果实品质没有明显的不利影响。     

采前壳寡糖处理对杏果实黑斑病的抗性诱导

以新疆赛买提杏为试验材料,分别在果实坐果期、膨大期、转色期及采收前48h,采用分子量为5 000、浓度为0.05%的壳寡糖(GOS)溶液对杏果实进行喷施处理,以喷施清水为对照(CK);采收后的杏果实在机械损伤接种链格孢菌后置于4℃、相对湿度90%~95%的条件下贮藏,定期统计接种链格孢菌杏果实的病斑直径和发病率,测定抗病相关酶苯丙氨酸解氨酶(PAL)、β-1,3-葡聚糖酶(GLU)和几丁质酶(CHT)的活性及木质素、富含羟脯氨酸糖蛋白(HRGP)的含量,探讨采前壳寡糖处理对杏果实黑斑病的抗性诱导及其生理机制。结果显示,贮藏结束时,采前壳寡糖处理的果实发病率与病斑直径分别比对照显著降低了16.37%和17.57%。随着贮藏期间的延长,壳寡糖处理杏果实PAL、GLU、CHT的活性和木质素、HRGP的含量均表现出先上升后下降的变化趋势,且始终显著高于同期对照,并分别在接种后第21、28、21、28和14天达到峰值,峰值比同期对照分别显著提高12.17%、78.22%、31.41%、34.81%和77.44%。研究表明,采前壳寡糖处理能通过诱导提高杏果实病程相关蛋白及细胞壁HRGP和木质素的含量来增强杏果实对黑斑病的抗性。     

纯氧对采后杨梅果实腐烂的抑制与抗病相关酶的诱导

为研究高氧对抑制果实腐烂的作用及其与抗病相关酶活性诱导的关系,将杨梅果实采后在5℃用纯氧或空气(对照)处理12 d.结果表明,纯氧处理可显著抑制果实腐烂发生,贮藏12 d后对照果实的腐烂指数达到54%,而处理果实仅为17%.纯氧处理在贮藏前期可诱导杨梅果实几丁质酶和β-1,3-葡聚糖酶活性的升高,并在第6天时达到高峰.另外,纯氧处理增加了苯丙氨酸解氨酶和过氧化物酶的活性及总酚含量,并在整个贮藏期间一直高于对照水平.这些结果表明,高氧抑制杨梅果实腐烂的作用与诱导与抗病相关的酶的活性升高密切相关,抗病性诱导是高氧抑制杨梅果实腐烂的重要原因.     

丁香精油对冷藏冬枣果实腐烂及诱导抗病相关酶活性的影响

对不同浓度丁香精油处理冬枣果实在0℃贮藏期间(60d)及藏后25℃货架期(5d)的果实腐烂率、诱导抗病相关酶活性和总酚含量的变化特征进行分析,以探索丁香精油抑制冬枣果实腐烂与抗病性诱导的关系。结果表明:丁香精油处理能有效抑制冬枣贮藏期果实腐烂的发生,提高其苯丙氨酸解氨酶、多酚氧化酶和过氧化物酶活性,诱导总酚含量的增加。经丁香精油处理冬枣果实在贮藏60d后25℃货架期5d时的腐烂指数得到明显下降,同时保持了较高的苯丙氨酸解氨酶、多酚氧化酶、过氧化物酶活性和总酚含量,并以0.50%丁香精油处理的效果最显著,其贮藏后货架期的果实腐烂指数较对照下降了45.5%。可见,丁香精油抑制贮藏冬枣果实的腐烂与抗病相关酶活性的升高密切相关,抗病性诱导是丁香精油处理抑制冬枣采后果实腐烂的重要原因之一。     

壳聚糖涂膜对机械伤苹果抗性生理特征的影响

为了提高苹果采后抗机械损伤能力,减少贮藏损失,以红富士苹果为材料,通过人工模拟机械伤试验,研究壳聚糖涂膜对损伤红富士苹果常温贮藏条件下果肉褐变、相关酶活性及抗性相关物质的影响,探索壳聚糖涂膜在果蔬防腐保鲜上的应用。结果显示:壳聚糖涂膜处理科显著减少红富士苹果果实机械伤口的扩张,提高机械伤果实的总酚含量,降低PPO活性,从而有效抑制机械伤苹果贮藏期间的果肉褐变的发生。同时,壳聚糖涂膜处理可提高机械伤苹果的POD和PAL活性,延缓酚类物质含量的下降,促进体内木质素的合成。研究表明,壳聚糖涂膜处理能够有效防止机械伤苹果贮藏期间的酶促褐变,减少果肉组织中有害物质的积累,促进愈伤组织的形成,从而增强了机械伤苹果的抗性,有效延缓了果实衰老。     

O2和CO2配比对低温贮藏李品质及生理变化的影响

为了探索适宜‘黑宝石’李贮藏的气体参数,研究了不同气体成分(6.0%O2+5.0%CO2、6.0%O2+1.0%CO2、10.0%O2+5.0%CO2和10.0%O2+1.0%CO2)处理对贮藏及货架期‘黑宝石’李采后品质(硬度、总糖、可滴定酸和腐烂指数)、抗氧化酶(SOD、POD和CAT)活性及MDA含量的影响。结果显示:(1)在贮藏0~45 d期间,冷藏对照果实的腐烂指数在8%以下,其货架果实的硬度仍可下降;贮藏至75 d时,冷藏对照果实的腐烂指数达38%,而且其果实失去了软化能力。(2)气调处理可减缓低温贮藏李果实硬度的下降,降低果实的腐烂指数,维持货架果实的后熟能力,但6.0%O2+1.0%CO2处理对果实腐烂指数的影响不显著。(3)气调处理可提高低温贮藏李果实的SOD、POD和CAT活性,抑制这3种酶在货架模拟过程中的升高,且可降低低温贮藏及货架期果实的MDA含量。(4)气调贮藏中以6.0%O2+5.0%CO2处理的效果最佳,果实的贮藏期可达75 d。研究说明,常规冷藏(0~1.5℃)可满足‘黑宝石’李果实采后短期贮藏(<45 d)的需要,而适宜的气调贮藏可使其贮藏期限延长30 d左右。     

不同浓度海藻酸钠处理对油桃保鲜效果的影响

使用浓度为10%、15%、20%的海藻酸钠溶液对油桃涂膜处理5min,定期测定油桃果实的理化指标,研究不同浓度海藻酸钠涂膜处理油桃果实,对其贮藏品质的影响。结果表明：涂膜处理能够抑制油桃果实腐烂率、失重率的上升,推迟其呼吸高峰的出现时间,延缓油桃果实含糖量、维生素C含量、含酸量和硬度的下降速度;海藻酸钠涂膜处理有利于油桃保鲜,其中浓度为15%的海藻酸钠溶液涂膜处理对保持油桃果实的贮藏品质效果最好。     

热空气处理对杧果果实若干生理特性和贮藏效果的影响

采用紫花杧果为试材,以果实成熟季节的平均气温(30±2℃)为对照,研究35℃、38℃热空气分别处理24 h和48 h对果实生理生化特性和贮藏效果的影响。结果表明,与对照相比,温度升高或处理时间延长显著提高果皮MDA含量,抑制果实可溶性固形物含量的上升、可滴定酸的下降和果皮转黄,延缓果实的后熟过程。经38℃热空气24h和48h处理,病斑面积>50%的果实在第14天分别为45.8%和54.2%,果实发病率显著高于对照。而35℃热空气24h处理对上述指标的影响不明显。     

紫花苜蓿种子对逆境贮藏条件的反应

以陇东紫花苜蓿 (MedicagosativaL .cv .“Longdong”)种子为材料 ,在室温、35℃和 35℃ +10 %的种子含水量 (SMC) 3种贮藏、接种或不接种燕麦镰刀菌 (Fusariumavenaceum (Fr.)Sacc .)的条件下 ,1年贮藏期内对各逆境处理的种子每隔 6 0d进行 1次标准发芽试验 ,2 0℃恒温、第 10d统计种子的发芽率和死亡率 ,试验结束时计测种子幼苗的长度和感病率 ;在大田条件下观测各处理种子的出苗率 ,确定催腐 (CD)与各种贮藏条件下的苜蓿种带真菌种类和检出率 .结果表明 ,随着贮藏温度和种子含水量等逆境贮藏条件胁迫的加剧 ,苜蓿种带真菌检出率逐渐增高 ,从室温、35℃条件下的 10 %上升到CD +35℃ +10 %SMC条件下的 2 9% ;抗病性逐渐减弱 ,35℃ +10 %SMC条件下幼苗的感病率和种子死亡率显著 (P <0 .0 5 )高于室温和 35℃下的感病率和种子死亡率 ;室内种子发芽率和田间出苗率逐渐下降 ,35℃ +10 %SMC条件下的种子的发芽率和田间出苗率显著 (P <0 .0 5 )低于在室温和 35℃下的发芽率和田间出苗率 ;幼苗生长受到抑制 ,35℃ +10 %SMC条件下的苗长和根长显著 (P <0 .0 5 )低于在室温和 35℃下的幼苗长度 .随着贮藏时间的延长 ,种子真菌检出率和田间出苗率下降 ,幼苗感病率增加 .与未接种的对照相比 ,接种燕麦镰刀菌的种子     

苹果脱乙酰几丁质发酵液诱导苹果叶片对斑点落叶病的早期抗性反应

苹果发酵液(Apple fermentation broth,AFB)是用生理落果、人工疏果和采前落果等无商品价值的果实,经快速发酵制成的植物源营养制剂。苹果脱乙酰几丁质发酵液是在发酵前将脱乙酰几丁质加入粉碎的苹果果实中,共同发酵制成。本试验旨在探讨苹果脱乙酰几丁质发酵液诱导的苹果叶片对斑点落叶病(Alternaira alternate f.sp.mali)的抗性机制。以2年生宫藤富士苹果(Malus domestica Borkh.CV.‘kudowu’)幼树为试材,以喷施苹果发酵液(AFB)、苹果脱乙酰几丁质,发酵液(ACFB)和脱乙酰几丁质制备液(CHN)为处理,喷清水为对照。测定接种斑点落叶病病原菌后,苹果叶片的病情指数和防治效果,同时测定活性氧、木质素、交联蛋白的沉积状况、活性氧含量和抗氧化酶(过氧化物酶POD、超氧化物歧化酶SOD和过氧化氢酶CAT)的活性。结果表明,ACFB处理叶片的病情指数比对照降低了4.3%,防治效果比对照提高了40.7%,AFB处理叶片的病情指数比对照降低了2.4%,防治效果比对照提高了22.2%。斑点落叶病病原菌接种12h后,ACFB处理叶片在病原菌侵染位点上的活性氧、木质素和交联蛋白的沉积量比对照显著增加,其中活性氧比对照增加30%;各处理叶片超氧阴离子自由基和过氧化氢含量分别在接种后12h和36h、3h和24h出现两个高峰。病原菌接种后9—72h,ACFB处理叶片的POD酶和SOD酶活性高于对照,而CAT酶活性较对照低。由此可见,喷施苹果脱乙酰几丁质发酵液,可有效诱导苹果叶片对斑点落叶病的抗性,其诱导反应可能与侵染早期叶片活性氧迸发及抗氧化代谢有关。     

生物肥与甲壳素和恶霉灵配施对香蕉枯萎病的防治效果

通过盆栽试验研究了生物肥与甲壳素和恶霉灵配施防治香蕉枯萎病效果,试验结果表明,生物肥与恶霉灵配施(H+F)处理香蕉枯萎病病情指数最高,生物肥与甲壳素配施(C+F)处理病情指数最低。单独生物肥处理防病效果为32.8%,生物肥与甲壳素配施处理为42.5%,而生物肥与恶霉灵配施加重了香蕉枯萎病病情。Biolog Eco微平板研究发现,AWCD(平均每孔颜色变化率)和Shannon等4个多样性指数变化趋势与防病效果相反:防病效果好的处理,土壤细菌功能多样性指数反而低,经检测发现病原真菌(Fusarium oxysporum f. sp. cubense)可利用Biolog Eco微平板上碳源底物并发生颜色变化,干扰测定结果。T-RFLP分析土壤细菌DNA多样性,对照(灭菌生物肥)土壤中TRFs末端限制性片段最少,生物肥与甲壳素配施处理最多。与网上数据库比较,生物肥与甲壳素配施增加了土壤中芽胞杆菌种类,与恶霉灵配施降低了芽胞杆菌种类。分析发现,T-RFLP和Biolog的主成份分析载荷图具有较高一致性。因此,生物肥与生物农药甲壳素配施,从生态角度控制土传病害,优势互补,提高了土壤细菌多样性,改善了土壤细菌群落结构,有利于提高防病效果。     

Induction of Resistance in Melon to Didymella bryoniae and Sclerotinia sclerotiorum by Seed Treatments with Acibenzolar-S-methyl and Methyl Jasmonate but not with Salicylic Acid

The plant resistance activator acibenzolar‐S‐methyl (BTH), the signalling molecules salicylic acid (SA) and methyl jasmonate (MeJA) were tested by seed treatment for their ability to protect melon seedlings from gummy stem blight and white mould disease caused by the soil‐borne fungal pathogens Didymella bryoniae and Sclerotinia sclerotiorum, respectively. Didymella bryoniae infection on melon seedlings was completely suppressed by MeJA treatment. Necrotic lesions akin hypersensitive response occurred on all inoculated seedlings and prevented pathogen diffusion into healthy tissues. Didymella bryoniae infection was restricted following BTH seed treatment as well, although the percentage of necrotic lesions in comparison with the water soaked lesions was significantly lower than that from MeJA‐induced seedlings. BTH protected melon seedlings against S. sclerotiorum by the occurrence of a high percentage of necrotic lesions. A lower level of resistance was also achieved by MeJA seed treatment. The augmented level of resistance of tissues from BTH and MeJA‐treated seeds was associated with rapid increases in the activity of the pathogenesis‐related proteins chitinase and peroxidase. MeJA also determined a rapid and transient accumulation of lipoxygenase. Moreover, BTH and MeJA treatments determined the differential induction of particular de novo synthesized isoenzymes of these proteins. Results indicate that BTH and MeJA applied to melon seeds may activate on seedlings diverse metabolic pathways leading to the enhancement of resistance against distinct pathogens.     

Induction of Enzymes and Phenolic Compounds Related to the Natural Defence Response of Netted Melon Fruit by a Bio-elicitor

Fungal disease in netted melon fruit is an important factor affecting their postharvest quality and therefore an important cause of large economic losses around the world. Among the alternatives to control fungal diseases, the induction of the natural defence response (NDR) in fruits is promising. The objective of this study was to induce the NDR in netted melon treated with a bio-elicitor formulated from Fusarium oxysporum growth in a potato dextrose agar enriched with netted melon skin. Netted melon fruits (cv 'Primo') were not treated (C), untreated and inoculated with F. oxysporum (IN), treated with a bio-elicitor (FES), or treated with the bio-elicitor and inoculated (FES + IN). After treatments, fruits were stored for 8 days at 20°C with 90–92% relative humidity. Melon was sampled every 2 days at 20°C to evaluate the development of Fusarium rot symptoms as disease index percentage (DI), changes in phenolic compounds, changes in phenylalanine ammonia-lyase (PAL) activity, chitinase activity (ChA) and β-1,3-glucanase activity (GA). It was found that DI in netted melon fruit was significantly reduced in the FES + IN as compared with the IN treatment. FES + IN and FES treatments showed the highest increase of phenolic acids. Higher levels of PAL activity were observed in the treatments IN, FES, and FES + IN with respect to C, after 4 days of storage. A large increase in ChA activity was observed in the treatments IN, FES and FES + IN after 6 days of storage. No differences in GA activity were found among FES, FES + IN and C treatments throughout storage. IN treatment showed the highest increase in GA activity after 4 days of storage. It is concluded that the bio-elicitor activates the NDR as measured by the increase in phenolic acids synthesis, PAL and ChA enzymes activity, in a similar way as the infection by the living pathogen.     

Effect of combination between inducer resistance chemicals and systemic fungicides on management of sweet melon downy mildew

The efficiency of some inducer resistance chemicals (IRCs) like bion, chitosan, humic acid and salicylic acid as well as the fungicides like Folu-Gold, Galben Copper, Previcure-N and Redomil Gold Mancozeb on management of sweet melon downy mildew, caused by Pseudoperonospora cubensis was evaluated in vitro and in vivo. Also, the efficiency of the alternation between the sprayed two fungicides and IRCs on management of the disease and the produced fruit yield and its total soluble solids (TSS) under field conditions were assessed. The inhibitory effect of the IRCs and the tested fungicides on sporangial germination of P. cubensis resulted in a significant reduction in the germinated sporangia. In addition, IRCs were less effective than the fungicides. Disease management revealed the same trend of the in vitro experiment when they sprayed fungicides on sweet melon plants artificially inoculated with the sporangia of the causal fungus under greenhouse conditions. Furthermore, under field conditions, spraying sweet melon plants with the two tested fungicides was the most efficient in decreasing the disease and increasing fruit yield and its TSS, to somewhat, followed by the alternation between them and the tested IRCs. In addition, IRCs treatments showed the lowest efficiency in this regard.     

施硼和赤霉素对‘李广杏’坐果率及果实品质的影响

该研究以8年生盛果期的‘李广杏’植株为试材,于花蕾膨大期喷施0.1%(P1)、0.3%(P2)和0.5%(P3)硼砂和盛花初期喷施50(C1)、100(C2)和150 mg/L(C3)赤霉素,测定不同处理下李广杏的坐果率、果实品质及营养生长指标的变化,并用主成分分析不同处理的效果进行综合评价,为敦煌寒旱区‘李广杏’的栽培提供理论依据。结果表明:(1)‘李广杏’叶面积增长量在C1浓度处理下显著高于CK,不同浓度的硼处理对其均具有抑制作用,但C1、P2浓度下新稍生长量高于其他处理。(2)适宜浓度的硼和赤霉素处理可一定程度减少‘李广杏’花的败育率,从而有效提高果树的坐果率,其中硼处理以P3浓度下最优,但P3与P2处理下坐果率无显著差异,赤霉素处理以C2浓度下最优。(3)适宜浓度硼和赤霉素能够明显提高‘李广杏’果实品质,C1浓度处理下的果实糖酸比、可溶性固形物含量显著高于CK,P2处理下的果实维生素C、可滴定酸含量显著高于其他处理;适宜浓度赤霉素和硼对果实的单果重、果形指数、侧径有明显的促进作用。(4)主成分分析结果显示,各处理效果的综合得分由高到低依次为P2(1.20)>C2(0.91)>P1(0.13)>C1(-1.01)>CK(-1.68)>P3(-2.13)>C3(-7.76);果实可溶性糖、可溶性蛋白、糖酸比等主成分占比较高,可作为评价‘李广杏’果实品质的重要依据。研究发现,花期喷施适宜浓度的硼和赤霉素可有效提高‘李广杏’果树的生长状况、坐果率及果实品质,且甘肃敦煌地区以花蕾膨大期喷施0.3%硼和盛花初期喷施100 mg/L赤霉素效果最佳。     

硅素分期施用对镉污染水稻光合特性及物质积累的影响

硅(Si)可有效提高水稻对镉(Cd)的抗性,但关于优化硅肥管理对水稻耐Cd性、光合及物质积累等响应机制尚不明晰。采用受污染的农田土壤,通过盆栽试验研究移栽期施Si(T)、拔节期施Si(J)、移栽和拔节期等量分期施Si(TJ)对Cd污染水稻光合作用及物质积累的影响,以不施Si(CK)为对照。结果表明：施Si可明显提高Cd污染下水稻净光合速率,延长叶片光合功能,促进叶片Si沉积,增加Cd在叶中的固定,减少其向籽粒转移。与CK相比,TJ处理在全生育期具有较高的光合速率,产量显著高于其他处理。T、TJ、J处理叶片细胞壁Cd的固持量分别增加11.45%、24.16%和30.15%,且叶片Cd更多以惰性形态(包括果胶和蛋白质结合态Cd、不溶解性磷酸Cd和残渣态Cd)存在,导致叶片Cd转移系数降低,T、TJ、J较CK分别降低33.91%、56.67%和52.16%。此外,主成分分析结果表明,3种Si处理对水稻耐Cd性和光合特性的综合影响大小为TJ>J>T。综合考虑Si调控光合作用、产量、叶片和籽粒Cd浓度的效应,推荐Si素于移栽期与拔节期分期施用。     

单核苷酸多态性与甜瓜抗枯萎病分子育种研究

目的:结合单核苷酸多态性标记技术,利用甜瓜本身的抗病性以解决新疆甜瓜病害问题。方法:对新疆甜瓜抗枯萎病基因Fom-2基因进行克隆分析,并根据Fom-2基因在不同抗性甜瓜亲本的单核苷酸多态性,设计检测SNP标记的PCR扩增引物,验证其多态性;并利用F2代分析该标记与筛选获得的甜瓜抗枯萎病基因连锁的SSR标记的遗传关系。结果:在抗病与感病甜瓜品种中均扩增获得PCR条带,试验中设计单核苷酸多态性分子标记在抗病品种为显性,与筛选的和抗枯萎病基因紧密连锁的共显性标记SSR430共分离。结论:不同抗性甜瓜品种均含有Fom-2基因或其高度同源序列,SNP显性标记和共显性标记SSR430均可用于甜瓜抗枯萎病分子标记辅助育种。     

Chitosan combined with sodium silicate treatment induces resistance against rot caused by Alternaria alternata in postharvest jujube fruit

The effect of chitosan (0.1 mol/L) combined with sodium silicate (100 mmol/L) treatment on Alternaria rot caused by Alternaria alternata in postharvest jujube fruit (Ziziphus jujuba Mill. cv. Dongzao) was studied. The results showed that chitosan combined with sodium silicate treatment significantly reduced the lesion diameter, decay incidence, red index and weight loss of jujube fruit compared with control samples. Combining treatment increased the ascorbic acid, flavonoids, total phenolic compounds and lignin content. The level of superoxide anion () and hydrogen peroxide of treated samples was also increased compared with the control samples. Meanwhile, the activities of phenylalanine ammonia lyase, polyphenol oxidase, superoxide dismutase, peroxidase, chitinase and β‐1,3‐glucanase were also accumulated in treated jujube samples, while the activity of catalase markedly decreased. These results indicated that chitosan combined with sodium silicate treatment could induce the disease resistance of postharvest jujube. Therefore, coating postharvest jujube using chitosan combined with sodium silicate could promise as a novel method for preventing the disease infection of postharvest jujube.     

遮荫对甜瓜叶片光合特性的影响

以适宜不同栽培条件的3个甜瓜品种为材料,研究了遮荫对其光合色素含量、净光合速率及比叶重等叶片特性的影响。结果表明:与正常光照相比,遮光处理能诱使甜瓜叶片叶绿素和类胡萝卜素含量显著提高,叶绿素a/b显著降低。全光照条件下,3个甜瓜品种的净光合速率日变化曲线均呈双峰型,有明显的"光合午休"现象,而在遮荫条件下则呈单峰曲线变化,且光合峰值出现的时间比全光照下推迟;遮光条件下甜瓜叶片气孔导度日变化曲线与其净光合速率日变化类似。3个品种间比叶重在全光照条件下差异不显著,但遮荫显著降低了壮龄叶片的比叶重,且遮荫强度越重,比叶重越小;品种‘黄河蜜3号’壮龄叶的比叶重降幅(31.83%)显著大于‘银帝’(27.22%)和‘玉金香’(26.01%)。可见,遮荫降低了甜瓜叶片的净光合速率和功能叶片的比叶重,植株通过增加自身叶片光合色素含量以增强对环境的适应性,缓解遮荫对其的影响,品种‘银帝’表现出较强的耐弱光性。