钙处理对番茄采后成熟生理品质的影响

用浓度为10%、15%的C aC 12处理采后番茄,发现外源钙可有效增加番茄果肉硬度和有机酸含量,降低呼吸峰值,并延缓呼吸高峰的出现,降低可溶性固形物含量,C aC 12还较好抑制了膜透性的增加,降低了丙二醛含量,从而延缓了番茄采后成熟衰老。在本试验范围内,以15%C aC 12处理的效果较好。

二氧化碳短期厌氧处理对双孢蘑菇采后生理及品质的影响

双孢蘑菇味道鲜美、营养价值丰富,但是其呼吸代谢旺盛、货架期短,为了解决其不耐贮藏的问题,本实验用不同水平的CO_(2)(5%、10%、20%)对双孢蘑菇进行短期厌氧处理,并以纯N_(2)处理作为对照。通过对双孢蘑菇采后品质指标(质量损失率、亮度、褐变度、质构、味觉值)和生理指标(呼吸速率、相对电导率、丙二醛含量、抗氧化物质含量)进行测定,发现低水平CO_(2)(5%左右)短期厌氧处理的保鲜效果最好,其在降低双孢蘑菇的呼吸速率和质量损失率、抑制褐变、维持硬度和弹性、延缓细胞膜通透性的升高、减轻氧化损伤、保持鲜味等方面有良好的效果。但是高水平CO_(2)处理保鲜效果相对较差,20%CO_(2)组处理的双孢蘑菇褐变严重,细胞膜通透性升高,电解质渗漏严重,还伴有一定程度的氧化损伤。

纸片型1-MCP处理对安溪油柿果实采后生理和贮藏品质的影响

研究了纸片型1-甲基环丙烯(1-methylcyclopropene,1-MCP)处理对安溪油柿果实采后生理和贮藏品质的影响。采后安溪油柿果实用1.35μL/L的1-MCP处理12 h后,在(20±1)℃、相对湿度85%下贮藏。结果表明:与对照相比,1-MCP处理能有效降低采后安溪油柿果实呼吸强度;抑制果实表面色度a*值、b*值、C*值、L*值和色调角h的变化,抑制果皮叶绿素含量下降和类胡萝卜素含量上升,降低果实转红指数,并保持较好的果实外观色泽;此外,1-MCP处理能保持较高的果实硬度及可溶性固形物、可滴定酸、总糖、蔗糖、还原糖质量分数和VC、单宁含量,减少果实质量损失。因此认为,1.35μL/L纸片型1-MCP处理可有效延缓采后安溪油柿果实后熟衰老、改善果实贮藏品质。

1-甲基环丙烯对蓝靛果贮藏品质的影响

目的:探究1-甲基环丙烯(1-Methylcyclopropene,1-MCP)对蓝靛果贮藏品质的影响,以期为蓝靛果鲜果贮藏保鲜技术提供理论和实践依据。方法:以“蓝精灵”蓝靛果为试材,采后进行浓度为1μL/L 1-MCP处理24 h后,研究冰温(−0.5±0.3)℃贮藏期间1-MCP处理对果实贮藏品质、生理变化和抗氧化性的影响。结果:与对照相比,1-MCP处理延缓了贮藏期间果实好果率、果霜覆盖指数和风味指数的下降,贮藏60 d时硬度为1.39 kg/cm^(2),显著高于同期CK组硬度(0.95 kg/cm^(2)),维持了果实的感官品质和固有质地;贮藏中前期,1-MCP处理使得抗坏血酸、花色苷,黄酮和总酚含量保持在较高水平,同时抑制果实的呼吸强度和丙二醛(MDA)含量,抑制了生物活性物质下降以及延缓了果实的衰老进程;在抗氧化性方面,1-MCP能够有效减缓T-GSH、GSH、GSSG含量的降低,同时在贮藏中前期维持了较高的GR和SOD活性,进而达到维持果实的抗氧化能力。结论:1-MCP处理能够有效维持蓝靛果果实采后贮藏期的品质,延长贮藏期果实的抗氧化能力。

丁香复合桑叶处理对“夏黑”葡萄采后品质的影响

以"夏黑"葡萄为材料,研究不同浓度丁香复合桑叶提取物处理对采后"夏黑"葡萄果实采后生理及贮藏品质的影响。结果表明,与对照组相比,不同浓度丁香复合桑叶提取物处理对采后"夏黑"葡萄果实的落粒率、腐烂率和丙二醛浓度的上升具有一定抑制作用,延缓VC和可溶性固形物含量的下降速度,同时延缓果实过氧化物酶的活性降低的进程,进而有效保持葡萄的风味品质和营养价值。其中,以丁香复合桑叶提取物结合淀粉涂膜处理的B2 (丁香18 g+桑叶30 g)落粒率、腐烂率和丙二醛含量最低, VC含量和过氧化物酶活性保持最好,保鲜效果最好。

Effects of Controlled Atmospheres with High_O_2 or High_CO_2 Concentrations on Postharvest Physiology and Storability of "Napoleon" Sweet Cherry

Sweet cherries ( Prunus avium L. cv. Napoleon) were stored in controlled atmospheres (CA) of high O(2) (70% O(2) + 0% CO(2)) or high CO(2) (5% O(2) + 10% CO(2)), in modified atmosphere package (MAP, (13% - 18%) O(2) + (2% -4%) CO(2)) and in air (control) at 1 degreesC to investigate the effects of different O(2) and CO(2) concentrations on physiological properties, quality and storability of the fruits during storage. The results indicated that compared with other treatments, CA with high O(2) concentration decreased fruit decay and ethanol content, but increased the accumulation of malondialdehyde (MDA) and stimulated browning. CA with high CO(2) concentration inhibited polyphenol oxidase (PPO) activity, reduced MDA content, maintained vitamin C content and firmness, decreased fruit decay and browning. Soluble solids contents (SSC) were not significantly affected by different atmosphere treatments. 'Napoleon' fruits stored in 5% O(2) + 10% CO(2) for as long as 80 d were of good quality, but only 40, 20 and 30 d stored in MAP, 70% O(2) + 0% CO(2) and air, re-spectively.

Progress on Light-controlled Preservation Technology of Postharvest Vegetables

Preservation technology of light control has received the widespread atten- tion for its safety, green, environmental-protection, high efficiency. It has become the hotspot in the area of postharvest vegetables preservation. It could mainly be divid- ed into three categories： LED preservation, UV preservation and radiation preserva- tion. This paper systematically reviewed the mechanisms of different preservation technology of light control, summarized the research progress of light-controlled tech- nology in the physiological characteristics regulation, maintenance of nutritional quali- ty and microbial control of postharvest vegetables at home and aborad, and prospected the further studies on preservation technology for postharvest vegetables.