磨盘柿脱涩保脆防褐变调控机理及其无损检测技术研究
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摘要
磨盘柿原产于我国,属涩柿品系中的优良主栽品种之一,采后果实脱涩、保脆及防褐变是其贮藏保鲜中急于解决的技术瓶颈。国内外对上述问题均开展了相关研究,但多集中于单一化技术性应用或生理生化方面的研究,涉及了成熟度、温度、高CO2、乙烯、相关酶与底物等指标的影响,但这些指标间的内在联系,以及它们之间的交互作用,仍缺乏系统的全面阐述,对磨盘柿果实涩度、脆度及褐变有效的调控机理及其无损检测技术更鲜有研究。
本研究确定了磨盘柿采后涩味脱除的关键技术参数,在此基础上,开展了C02、真空包装、液浸、1-MCP处理、普通冷藏、减压贮藏、冰温贮藏及其配套集成技术对果实涩度、脆度、褐变的调控效应及相关机理的研究,着重探讨了近红外漫反射光谱建立磨盘柿果涩度(可溶性单宁)、脆度与品质(硬度、TSS)和褐变指标(果皮颜色和果肉浊度)的近红外光谱无损模型与精度预测,以及近红外漫反射光谱无损预测磨盘柿内部品质的可行性。得出结论如下:
1.C02全脱涩条件:环境温度为25℃、CO2浓度为90%、脱涩时间24 h;C02二段法脱涩条件:环境温度为18-20℃、网套包装、90% C02脱涩24 h后再放置24 h;真空包装脱涩条件:环境温度为18-20℃、真空度0.08 MPa、脱涩时间10d;八成熟真空包装果实常温下脱涩时间为14d,而冷搀藏下脱涩时间为45 d,脱涩效果好,且果实易于转色;冰温下,用含有2%NaCl溶液贮藏,在贮藏45 d时可以完全脱涩。
2.常温货架和冷藏期间,1-MCP处理均有效的延缓了柿果硬度和可溶性单宁的下降,抑制了果实的呼吸强度和乙烯生成量的增加,并推迟了呼吸高峰和乙烯高峰出现的时间,有效抑制贮藏后期果实MDA和膜相对电导率的增加,延缓了果实成熟衰老进程;抑制了PG活性、Cx活性、淀粉酶活性的增加,延缓果实软化进程;但对果实PE活性没有抑制作用;导致果实软化的影响因素次序为:PG>Cx>淀粉酶>PE。
3.减压贮藏、冰温贮藏、1-MCP结合冰温贮藏均抑制果实硬度和Vc的下降,延缓TSS的升高、TA的下降,推迟果实呼吸高峰和乙烯高峰的到来的时间,延缓内源乙烯生成量;抑制了贮藏后期果实MDA和膜相对电导率的增加、总酚含量的下降和PPO活性的增加、贮藏前期POD活性,保持了较高的SOD活性;其中与普通冷藏相比,减压冷藏果实保鲜期延长了30 d左右,冰温贮藏延长了45 d以上,1-MCP结合冰温贮藏延长了60 d以上。
4.可溶性单宁采用MPLS、二阶导处理和去散射处理建立的定标模型,Rcv为0.8754,RMSECV为0.0936,模型预测的Rp2为0.825,RMSEP为0.1116,RPD为2.33;硬度采用MPLS、一阶导处理和无散射处理建立的定标模型,Rcv为0.9507, RMSECV为1.1421,模型预测的Rp2为0.952,RMSEP为1.3303,RPD为4.55;TSS采用MPLS、一阶导处理和去散射处理建立的定标模型,Rcv为0.8420,RMSECV为0.3857,模型预测的Rp2为0.836,RMSEP为0.3636,RPD为3.30。表明可见/近红外光谱可以作为快速无损的检测技术来测量磨盘柿内部指标可溶性单宁、硬度和TSS。三个指标的综合模型MPLS、一阶导处理和无散射处理建立定标模型并进行模型预测,综合模型精度均有所下降,只能粗略的进行定量分析,故模型精度有待进一步提高。
5.L*采用MPLS、原始光谱和无散射处理建立定标模型的Rcv为0.9774,RMSECV为0.8268,模型预测的Rp2为0.959,RMSEP为1.1120,RPD为5.09;a*采用MPLS、一阶导处理和无散射处理建立定标模型的Rcv为0.9896,RMSECV为0.5503,模型预测的Rp2为0.985, RMSEP为0.5859,RPD为11.38;b*采用MPLS、原始光谱和无散射处理建立定标模型的Rcv为0.9788,RMSECV为1.3775,模型预测的Rp2为0.968,RMSEP为1.4177,RPD为7.92。每个模型都具有很好的预测结果。而三个指标的综合模型采用MPLS、一阶导处理和无散射处理建立定标模型并进行模型预测,综合模型精度均有所下降,但L*、a*、b‘的RMSECV和RMSEP均>0.9,且RPD>3.0,模型具有较好的适用性。果肉浊度模型采用PLS、一阶导处理和无散射处理建立的定标模型,Rcv为0.7766,RMSECV为0.1143,模型预测的Rp2为0.757,RMSEP为0.1079,RPD为2.22,只可以进行粗略的定量分析,因此,可见/近红外漫反射技术对磨盘柿果肉浊度的快速无损检测具有一定的可行性,但模型精度有待进一步提高。
Mopan persimmon (Disopyos Kaki L.) originated in our country is one of the major varieties of astringent persimmon lines. De-astringency, crispness-keeping and browning-preventing have been anxious to resolve posthavest storage technique bottleneck. Although there are many reports about above questions, and yet most opinions fastened on simplification technique or physiological researches, such as maturity, temperature, high CO2, ethylene, correlation emzyme and substrate, and etc. Presently, the relationship between these indexes and their interactions have not been compressively elucidated yet, and effective regulation mechanism and its nondestructive measurement technique of fruit de-astringency, crispness-keeping and browning have studied rarely.
The key technique parameter of Mopan persimmon posthavest de-astringecy was ascertained. In this paper, regulation effect and correlation mechanism of CO2, vaccum packaging, liquid storage.1-MCP treatment, common cold storage, hypobaric storage, controlled freezing point storage and integration technique on fruit were studied, and nondestructive models and precision forecast of de-astringency(soluble tannin content), crispness-keeping and quality(firmness and TSS), and browning indexes(peel color and flesh turbidity) in Mopan persimmon by near-infrared diffuse reflectance spectra, and feasibility of nondestructive measurement these indexes were discussed. Research results were as follows:
1. The CO2 whole de-astringent condition was ambient temperature of 25℃, CO2 concentration of 90% and de-astringent time of 24 h. The CO2 de-astringent of two stage method was ambient temperature from 18 to 20℃, packaging of plastic net and placement 24 h after 90% CO2 de-astringent 24 h. The vaccum packaging de-astringent condition was ambient temperature from 18 to 20℃, vaccum degree of 0.08 MPa and de-astringent time of 10 d. The de-astringent time of eight degree ripeness fruit with vaccum packaging was 14 d under ambient temperature, which was 45 d under low temperature and turned color easily. The de-astringent time of fruit with 2% NaCl liquid stroge was 45 d under contolled freezing point storage.
2.1-MCP treatment postponed the decrease of fruit firmness and soluble tannin effectively, controlled the increase of fruit respiration intensity and ethylene production, delayed the peak time of fruit respiration intensity and ethylene production, restrained rise of later storage fruit MDA and membrance relative conductance, deferred fruit ripe and senescence process, and improved increase of PG, Cx and amylase activity, deferred fruit softening process, but has no effect on PE activity during ambient and low temperature. Fruit softening influence factors from big to small was PG, Cx, amylase, PE.
3. Hypobaric cold storage, contolled freezing point storage and 1-MCP combined with contolled freezing point storage could control the decrease of fruit firmness, Vc and TA content, delayed the hoist of TSS, delayed the increase of respiration intensity and ethylene production, restrained later storge MDA. membrance relative conductance and PPO activity, controlled the decline of total phenol, SOD activity and former storage POD activity. Mopan persimmon storage time with hypobaric cold storage extended about 30 d, fruit storage time with contolled freezing point storage extended 45 d upwards, fruit storage time with 1-MCP combined with contolled freezing point storage extended 60 d upwards.
4. Soluble tannin model used MPLS, second derivative and DET treatment to establish calibration model and to predict, and Rcv was 0.8754, RMSECV was 0.0936, Rp2 was 0.825, RMSEP was 0.1116, RPD was 2.33. Firmness model used MPLS, first derivative and None treatment to creat calibration model and to predict, and Rcv was 0.9507, RMSECV was 1.1421. Rp2 was 0.952, RMSEP was 1.3303, RPD was 4.55. TSS model used MPLS, first derivative and DET treatment to creat calibration model and to predict, and Rcv was 0.8420, RMSECV was 0.3857, Rp2 was 0.836, RMSEP was 0.3636, RPD was 3.30. Therefore, the preliminary research on the built models indicated that nondestructive measurement of the fruit soluble tannin content, firmness and TSS using VIS/NIR spectroscopy technique was feasible.Three indexes comprehensive model used MPLS, first derivative and None treatment to establish calibration model and to predict, but the model precision declined to some extent, could only proceed quantitative analysis roughly, the precision of the models could be improved further.
5. L model used MPLS, original spectra and None treatment to establish calibration model and to predict, and Rcv was 0.9774, RMSECV was 0.8268, Rp2 was 0.959, RMSEP was 1.1120, RPD was 5.09. a* model used MPLS, first derivative and None treatment to establish calibration model and to predict, and Rcv was 0.9896, RMSECV was 0.5503, Rp2 was 0.985, RMSEP was 0.5859. RPD was 11.38. b* model used MPLS, original spectra and None treatment to establish calibration model and to predict, and Rcv was 0.9788, RMSECV was 1.3775, Rp2 was 0.968, RMSEP was 1.4177, RPD was 7.92. Three models had good predicted result. Three indexes comprehensive model used MPLS, first derivative and None treatment to establish calibration model and to predict, but the model precision declined to some extent, but its RMSECV and RMSEP was above 0.9, RPD was above 3.0, this model had good applicability. Flesh turbidity model used PLS, original spectra and None treatment to establish calibration model and to predict, and Rcv was 0.7766, RMSECV was 0.1143, Rp2 was 0.757, RMSEP was 0.1079, RPD was 2.22. The model could only accomplish quantitative analysis roughly. Therefore, the preliminary research on the built models indicated that nondestructive measurement of the flesh turbidity VIS/NIR spectroscopy technique was feasible, but the precision of the models could be improved further.
本研究确定了磨盘柿采后涩味脱除的关键技术参数,在此基础上,开展了C02、真空包装、液浸、1-MCP处理、普通冷藏、减压贮藏、冰温贮藏及其配套集成技术对果实涩度、脆度、褐变的调控效应及相关机理的研究,着重探讨了近红外漫反射光谱建立磨盘柿果涩度(可溶性单宁)、脆度与品质(硬度、TSS)和褐变指标(果皮颜色和果肉浊度)的近红外光谱无损模型与精度预测,以及近红外漫反射光谱无损预测磨盘柿内部品质的可行性。得出结论如下:
1.C02全脱涩条件:环境温度为25℃、CO2浓度为90%、脱涩时间24 h;C02二段法脱涩条件:环境温度为18-20℃、网套包装、90% C02脱涩24 h后再放置24 h;真空包装脱涩条件:环境温度为18-20℃、真空度0.08 MPa、脱涩时间10d;八成熟真空包装果实常温下脱涩时间为14d,而冷搀藏下脱涩时间为45 d,脱涩效果好,且果实易于转色;冰温下,用含有2%NaCl溶液贮藏,在贮藏45 d时可以完全脱涩。
2.常温货架和冷藏期间,1-MCP处理均有效的延缓了柿果硬度和可溶性单宁的下降,抑制了果实的呼吸强度和乙烯生成量的增加,并推迟了呼吸高峰和乙烯高峰出现的时间,有效抑制贮藏后期果实MDA和膜相对电导率的增加,延缓了果实成熟衰老进程;抑制了PG活性、Cx活性、淀粉酶活性的增加,延缓果实软化进程;但对果实PE活性没有抑制作用;导致果实软化的影响因素次序为:PG>Cx>淀粉酶>PE。
3.减压贮藏、冰温贮藏、1-MCP结合冰温贮藏均抑制果实硬度和Vc的下降,延缓TSS的升高、TA的下降,推迟果实呼吸高峰和乙烯高峰的到来的时间,延缓内源乙烯生成量;抑制了贮藏后期果实MDA和膜相对电导率的增加、总酚含量的下降和PPO活性的增加、贮藏前期POD活性,保持了较高的SOD活性;其中与普通冷藏相比,减压冷藏果实保鲜期延长了30 d左右,冰温贮藏延长了45 d以上,1-MCP结合冰温贮藏延长了60 d以上。
4.可溶性单宁采用MPLS、二阶导处理和去散射处理建立的定标模型,Rcv为0.8754,RMSECV为0.0936,模型预测的Rp2为0.825,RMSEP为0.1116,RPD为2.33;硬度采用MPLS、一阶导处理和无散射处理建立的定标模型,Rcv为0.9507, RMSECV为1.1421,模型预测的Rp2为0.952,RMSEP为1.3303,RPD为4.55;TSS采用MPLS、一阶导处理和去散射处理建立的定标模型,Rcv为0.8420,RMSECV为0.3857,模型预测的Rp2为0.836,RMSEP为0.3636,RPD为3.30。表明可见/近红外光谱可以作为快速无损的检测技术来测量磨盘柿内部指标可溶性单宁、硬度和TSS。三个指标的综合模型MPLS、一阶导处理和无散射处理建立定标模型并进行模型预测,综合模型精度均有所下降,只能粗略的进行定量分析,故模型精度有待进一步提高。
5.L*采用MPLS、原始光谱和无散射处理建立定标模型的Rcv为0.9774,RMSECV为0.8268,模型预测的Rp2为0.959,RMSEP为1.1120,RPD为5.09;a*采用MPLS、一阶导处理和无散射处理建立定标模型的Rcv为0.9896,RMSECV为0.5503,模型预测的Rp2为0.985, RMSEP为0.5859,RPD为11.38;b*采用MPLS、原始光谱和无散射处理建立定标模型的Rcv为0.9788,RMSECV为1.3775,模型预测的Rp2为0.968,RMSEP为1.4177,RPD为7.92。每个模型都具有很好的预测结果。而三个指标的综合模型采用MPLS、一阶导处理和无散射处理建立定标模型并进行模型预测,综合模型精度均有所下降,但L*、a*、b‘的RMSECV和RMSEP均>0.9,且RPD>3.0,模型具有较好的适用性。果肉浊度模型采用PLS、一阶导处理和无散射处理建立的定标模型,Rcv为0.7766,RMSECV为0.1143,模型预测的Rp2为0.757,RMSEP为0.1079,RPD为2.22,只可以进行粗略的定量分析,因此,可见/近红外漫反射技术对磨盘柿果肉浊度的快速无损检测具有一定的可行性,但模型精度有待进一步提高。
Mopan persimmon (Disopyos Kaki L.) originated in our country is one of the major varieties of astringent persimmon lines. De-astringency, crispness-keeping and browning-preventing have been anxious to resolve posthavest storage technique bottleneck. Although there are many reports about above questions, and yet most opinions fastened on simplification technique or physiological researches, such as maturity, temperature, high CO2, ethylene, correlation emzyme and substrate, and etc. Presently, the relationship between these indexes and their interactions have not been compressively elucidated yet, and effective regulation mechanism and its nondestructive measurement technique of fruit de-astringency, crispness-keeping and browning have studied rarely.
The key technique parameter of Mopan persimmon posthavest de-astringecy was ascertained. In this paper, regulation effect and correlation mechanism of CO2, vaccum packaging, liquid storage.1-MCP treatment, common cold storage, hypobaric storage, controlled freezing point storage and integration technique on fruit were studied, and nondestructive models and precision forecast of de-astringency(soluble tannin content), crispness-keeping and quality(firmness and TSS), and browning indexes(peel color and flesh turbidity) in Mopan persimmon by near-infrared diffuse reflectance spectra, and feasibility of nondestructive measurement these indexes were discussed. Research results were as follows:
1. The CO2 whole de-astringent condition was ambient temperature of 25℃, CO2 concentration of 90% and de-astringent time of 24 h. The CO2 de-astringent of two stage method was ambient temperature from 18 to 20℃, packaging of plastic net and placement 24 h after 90% CO2 de-astringent 24 h. The vaccum packaging de-astringent condition was ambient temperature from 18 to 20℃, vaccum degree of 0.08 MPa and de-astringent time of 10 d. The de-astringent time of eight degree ripeness fruit with vaccum packaging was 14 d under ambient temperature, which was 45 d under low temperature and turned color easily. The de-astringent time of fruit with 2% NaCl liquid stroge was 45 d under contolled freezing point storage.
2.1-MCP treatment postponed the decrease of fruit firmness and soluble tannin effectively, controlled the increase of fruit respiration intensity and ethylene production, delayed the peak time of fruit respiration intensity and ethylene production, restrained rise of later storage fruit MDA and membrance relative conductance, deferred fruit ripe and senescence process, and improved increase of PG, Cx and amylase activity, deferred fruit softening process, but has no effect on PE activity during ambient and low temperature. Fruit softening influence factors from big to small was PG, Cx, amylase, PE.
3. Hypobaric cold storage, contolled freezing point storage and 1-MCP combined with contolled freezing point storage could control the decrease of fruit firmness, Vc and TA content, delayed the hoist of TSS, delayed the increase of respiration intensity and ethylene production, restrained later storge MDA. membrance relative conductance and PPO activity, controlled the decline of total phenol, SOD activity and former storage POD activity. Mopan persimmon storage time with hypobaric cold storage extended about 30 d, fruit storage time with contolled freezing point storage extended 45 d upwards, fruit storage time with 1-MCP combined with contolled freezing point storage extended 60 d upwards.
4. Soluble tannin model used MPLS, second derivative and DET treatment to establish calibration model and to predict, and Rcv was 0.8754, RMSECV was 0.0936, Rp2 was 0.825, RMSEP was 0.1116, RPD was 2.33. Firmness model used MPLS, first derivative and None treatment to creat calibration model and to predict, and Rcv was 0.9507, RMSECV was 1.1421. Rp2 was 0.952, RMSEP was 1.3303, RPD was 4.55. TSS model used MPLS, first derivative and DET treatment to creat calibration model and to predict, and Rcv was 0.8420, RMSECV was 0.3857, Rp2 was 0.836, RMSEP was 0.3636, RPD was 3.30. Therefore, the preliminary research on the built models indicated that nondestructive measurement of the fruit soluble tannin content, firmness and TSS using VIS/NIR spectroscopy technique was feasible.Three indexes comprehensive model used MPLS, first derivative and None treatment to establish calibration model and to predict, but the model precision declined to some extent, could only proceed quantitative analysis roughly, the precision of the models could be improved further.
5. L model used MPLS, original spectra and None treatment to establish calibration model and to predict, and Rcv was 0.9774, RMSECV was 0.8268, Rp2 was 0.959, RMSEP was 1.1120, RPD was 5.09. a* model used MPLS, first derivative and None treatment to establish calibration model and to predict, and Rcv was 0.9896, RMSECV was 0.5503, Rp2 was 0.985, RMSEP was 0.5859. RPD was 11.38. b* model used MPLS, original spectra and None treatment to establish calibration model and to predict, and Rcv was 0.9788, RMSECV was 1.3775, Rp2 was 0.968, RMSEP was 1.4177, RPD was 7.92. Three models had good predicted result. Three indexes comprehensive model used MPLS, first derivative and None treatment to establish calibration model and to predict, but the model precision declined to some extent, but its RMSECV and RMSEP was above 0.9, RPD was above 3.0, this model had good applicability. Flesh turbidity model used PLS, original spectra and None treatment to establish calibration model and to predict, and Rcv was 0.7766, RMSECV was 0.1143, Rp2 was 0.757, RMSEP was 0.1079, RPD was 2.22. The model could only accomplish quantitative analysis roughly. Therefore, the preliminary research on the built models indicated that nondestructive measurement of the flesh turbidity VIS/NIR spectroscopy technique was feasible, but the precision of the models could be improved further.
引文
1. 白欢,祝美云.2010.壳聚糖与1-MCP处理对芒果货架期品质的影响.食品科学,31(24):461-464.
2. 蔡健鹰.2000.涩柿脱涩的几种方法.柑桔与亚热带果树信息,16(8):37-38.
3. 蔡宋宋,王宝刚,李文生,冯晓元,王纪华,张春财.2010.杏贮藏期间可溶性固形物和硬度的近红外光谱检测.光谱实验室,27(3):1185-1189.
4. 曹干.2004.现代近红外光谱分析技术在农业研究中的应用.广东农业科学,(B12):26-31.
5. 曹建康,谈小芳,王敏,赵玉梅,姜微波.2008.1-甲基环丙烯(1-MCP)真空渗透处理对货架期杏果实采后生理和品质的影响.食品工业科技,29(4):254-257.
6. 曹永庆,李壮,任杰,胡莹,冷平.2007.磨盘柿贮藏保鲜试验研究.保鲜与加工,7(6):31-34.
7. 常燕平,王如福,王国盛.2005.减压处理对梨枣果实采后生理及贮藏效果的影响.中国农学通报,21 (2):196-129.
8. 陈建业.2007柿品种鉴定及分类研究进展.山东林业科技,(4):60-63.
9. 陈金印,刘康.2008.1-MCP处理对秋番茄果实采后生理及贮藏效果的影响.食品科学,29(10):598-603.
10.陈文烜,郜海燕,陈杭君,毛金林,宋丽丽,葛林梅.2010.减压贮藏对软溶质水蜜桃采后生理和品质的影响.农业机械学报,41(9):108-112.
11.陈现臣,王彩霞.2009.1-MCP对桃果实贮藏保鲜中细胞膜相对透性的影响.湖北农业科学,48(8):1980-1982.
12.陈鑫瑶,生吉萍,胡朋,王菲,赵丹莹,中琳.2008.外源乙烯和1-MCP处理对番茄采后贮藏抗冷性的影响.食品科学,29(7):466-469.
13.陈义伦,古习娟,刘宾,张蕾.2006.C02浓度和温度对柿子脱涩效果的影响.食品与发酵工业,32(4):74-77.
14.褚小立,袁洪福,陆婉珍.2006.近年来我国近红外光谱分析技术的研究与应用进展.分析化学,(2):1-10.
15.崔彦.2008.减压条件对梨枣生理生化变化的影响.安徽农业科学,36(29):12900-12901.
16.丁丹丹,王志华,佟伟,王文辉,张志云,姜修成.2008.1-MCP处理对圆黄梨MA包装果实冷藏效果研究.江西农业学报,20(1):68-71.
17.董国庆,李莉,班兆军,李喜宏.2009.1-MCP对灵武长枣采后生理变化的影响.保鲜与加工, 9(5): 15-18.
18.董十远,张平,纪淑娟.2002.C02脱涩脱涩处理对柿果贮藏品质的影响.食品科学,23(10):105-109.
19.董十远.2001.CO2脱涩处理对柿果生理生化特性及保鲜效果的影响.沈阳:沈阳农业大学,1-2.
20.董守龙,任芊,黄友之.2004.近红外光谱分析技术的发展和应用.化学生产与技术,(6):44-46.
21.冯晓元,王宝刚,李文生,闫国华,张开春,姜微波.2008.近红外漫反射光谱预测久保桃可溶性 固形物初步实验研究.食品工业科技,29(3):273-275.
22.付永琦,陈明,刘康,陈金印.2007.1-MCP二次处理对猕猴桃果实采后生理生化及贮藏效果的影响.果树学报,24(1):43-48.
23.傅霞萍,应义斌,刘燕德,陆辉山.2006.水果坚实度的近红外光谱检测分析试验研究.光谱学与光谱分析,26(6):1038-1041.
24.郜海燕,宋丽丽,周拥军,杨颖,陈文烜,陈杭君,毛金林,郑永华.2008.减压贮藏对冷藏枇杷果实品质和木质化败坏的影响.农业工程学报,24(6):245-249.
25.龚新明,关军锋,张继澍.2010.皇冠梨采后1-MCP和CaCl2处理对品质和果皮褐斑发生的影响.园艺学报,37(3):375-382.
26.辜青青,房剑锋.2007.柿果脱涩机理及人工脱涩方法.现代园艺,2007, (2):26-27.
27.关军锋.1994.采后雪梨衰老与过氧化作用.河北农业大学学报,17(2):6-9.
28.郭孝辉,房淑珍,王颉,郭雪霞,徐立强,袁丽.2006.C02处理对磨盘柿果实质地及品质的影响.食品研究与开发,27(8):156-159.
29.韩军岐,张有林.2006.蒜薹减压贮藏技术研究.吉林农业大学学报,28(2):222-225.
30.韩育梅,张少英,徐莉莉,杨维.2008.1-甲基环丙烯对河套蜜瓜后熟和软化的影响.中国农业大学学报,13(2):39-43.
31.郝晓玲,王如福.2004.减压贮藏对鲜枣保鲜效果的影响.粮油加工与食品机械,35(6):70-72.
32.郝再彬,苍晶,徐忡.植物生理实验.2004.哈尔滨:哈尔滨工业大学出版社,106-117.
33.何金光,任惠,苏伟强,朱建华,黄宏明.2008.1-MCP对田阳香芒采后生理指标和贮藏品质的影响.广西农业科学,39(1):80-83.
34.河北农业大学.1989.果树栽培学各论.北京:农业出版社,274-294.
35.胡芳,马书尚,候大光.2007.甜柿采后生理特性及对1-MCP处理的反应.西北植物学报,27(3):0571-0576.
36.胡芳,马书尚,张继澍,韩青梅,赵刚,武春林.2009.1-甲基环丙稀对“富有”甜柿采后主要生理指标及细胞超微结构的影响.园艺学报,36(4):487-492.
37.胡位荣,张昭其,蒋跃明.2005.采后荔枝冰温贮藏的适宜参数研究.中国农业科学,38(4):797-802.
38.黄利刚,李慧娜,张亮,王清章.2008.冰温贮藏对莲藕品质的影响.华中农业大学学报,27(2):317-320.
39.黄森,张继澍,李维平.2003.减压处理对采后柿果实软化生理效应的影响.西北农林科技大学学报·自然科学版,31(5):57-60.
40.黄森,张继澍.2001.低乙烯减压处理对柿果实乙烯生物合成的影响.西北植物学报,21(2):318-322.
41.黄艳凤,王永婵,张平.2009.静态顶空气相色谱法快速测定葡萄中乙醇和乙醛含量的研究.保鲜与加工,9(6):28-30.
42.惠伟,顾茹英.1993.柿子的气调贮藏技术研究初报.天津农业科学,(2):20-22.
43.惠伟,牛瑞雪,宋要强,李德英.2010.1-MCP和DPA对砀山酥梨黑皮病的抑制效果.中国农业科学,43(6):1212-1219.
44.吉海彦.2001.近红外光谱仪器及其在农业中的影响.仪器仪表学报,22(4)增刊:356-357.
45.纪淑娟,郭威,魏宝东,程顺昌.2008.1-MCP对不同采收期南果梨常温保鲜效果研究.中国果树,(1):27-30.
46.江英,童军茂,陈友志.2004.草莓冰温贮藏保鲜技术的研究.食品科技,29(10):85-87.
47.姜孝军,伊凯,刘志,王冬梅,杨锋,闫忠业,吕天星.2008.1-MCP处理对昂林苹果贮藏性的影响.山西果树, (6):9-10.
48.姜云斌,佟伟,王志华,王文辉,都兴日,夏玉静.2010.1-MCP处理对明珠、贵妃梨货架期品质的影响.中国农学通报,26(21):67-70.
49.蒋雨松.1999.柿果的脱涩原理及方法.江西园艺,(5):30-31.
50.金宏,惠伟,丁雅荣,张鸿,牛瑞雪.2009.1-MCP对“粉红女十”苹果冷藏期间品质变化和香气形成的影响.西北植物学报,29(4):754-761.
51.孔莹,晋彭辉,王燕,李红卫.2009.减压贮藏对绿芦笋不同部位品质的影响.食品工业科技,30(12):335-337,341.
52.冷平,李宝,张文,贾克功.2003.磨盘柿的二氧化碳脱涩技术研究.中国农业科学,36(11):1333-1336.
53.李宝,冷平.2009.国内外柿生产和贸易现状与发展趋势.第四届全国柿生产和科研进展研讨会,20-27.
54.李灿,饶景萍.2004.薄膜包装对于柿果冷藏生理及品质变化的影响.西北植物学报,2004,24(9):1604-1608.
55.李锋.2008.1-MCP对丰水梨常温贮藏的影响.北方园艺, (4):252-254.
56.李军.2000.钼蓝比色法测定还原型维生素C.食品科学,21(8):42-45.
57.李合生.植物生理生化实验原理和技术.1999.北京:高等教育出版社,164-169.
58.李共国,马子骏.2004.桑椹贮藏保鲜中糖酸比变化及影响因素的研究.蚕业科学,30(1):104-106.
59.李桂峰,赵国建,刘兴华,肖春玲.2009.苹果硬度的傅里叶变换近红外光谱无损检测.农业机械学报,40(1):120-123.
60.李江阔,李爽,张平,黄艳凤,纪淑娟.2007.1-MCP处理对磨盘柿货架期果实保脆效果的影响.沈阳农业大学学报,38(2):162-165.
61.李江阔2010.果蔬贮运保鲜中的1-MCP应用技术.天津:天津科技翻译出版公司,1-12.
62.李丽梅,冯云霄,关军锋,龚新明,及华,孙玉龙,孙希生.2010.1-MCP处理对雪桃呼吸、乙烯和贮藏品质的影响.河北农业大学学报,33(3):27-32.
63.李丽萍,韩涛,刘佳阳,郭冬梅.1998.单果真空包装对冷藏涩柿品质和有关生化变化的影响.农业工程学报,14(1):233-237.
64.李梅,王贵禧,梁丽松,祝美云,李振茹,元丽萍.2009.1-甲基环丙稀处理对西洋梨常温贮藏 的保鲜效果.农业工程学报,25(12):345-350.
65.李珊珊,饶景萍,孙允静,张宇,高亢.2010.早熟苹果新品种秦阳采后贮藏特性及其对1-MCP的反应西北农业学报,19(5):113-116,166.
66.李萍,韩涛,李丽萍,王忠民.2007.超声波结合钙处理对桃果实采后活性氧代谢的影响.林业科学,43(8):36-40.
67.李盛仙.1995.冬令珍果—柿子.健康,(12):30-31.
68.李爽,张平,李江阔,刘成红.2007.高浓度CO2和1-MCP处理对磨盘柿脱涩和保脆效果的影响.安徽农业科学,35(7):2082-2083,2147.
69.李雯,邵远志,陈维信.2005.淀粉酶活性测定方法的改进.植物生理学通讯,41(5):655-656.
70.李志强,乔玉山,徐长宝,章镇,蔺经.2008.不同后熟期“菊水”梨果实对外源乙烯和1-MCP处理的生理响应.西北植物学报,28(9):1862-1867.
71.李志强,汪良驹,王文辉,朱云娜.2007.1-甲基环丙烯延缓果实衰老的生理效应及其应用.植物生理学通迅,43(1):201-206.
72.刘成红,李江阔,张平,李爽,黄艳凤.2008.1-MCP对磨盘柿冷藏期间生理生化及贮藏效果的影响.保鲜与加工,8(2):23-26.
73.刘法英,张永,高同雨,伏芳,田军.2007.柿果低温浸藏脱涩保鲜技术研究.北方园艺,(7):208-210.
74.刘乐,饶景萍,常晓晓,弋顺超.2009.丙烯和1-MCP处理对采后柿果实ACS和ACO基因表达的影响.中国农业科学,42(6):2092-2097.
75.刘兴华,饶景萍.1998.果品蔬菜贮运学.西安:陕西科学技术出版社,215-217.
76.刘亚强,张渭滨.2000.柿果后熟过程中的品质变化及脱涩机理.渭南师专学报(自然科学版),15(2):28-31.
77.刘燕德,陈兴苗,欧阳爱国.2008a.梨表面色泽的可见/近红外漫反射光谱无损检测研究.红外与毫米波学报,27(4):266-268.
78.刘燕德,孙旭尔,陈兴苗.2008b.近红外漫反射光谱检测梨内部指标可溶性固形物的研究.光谱学与光谱分析,28(4):797-800.
79.刘元寿,颉敏华.2005.1-MCP在果蔬贮藏保鲜中的应用.甘肃农业科技,(4):31-33.
80.龙兴桂.2000.现代中国果树栽培(落叶果树卷).北京:中国林业出版社,709-711.
81.陆辉山,傅霞萍,谢丽娟,应义斌.2007.可见/近红外光估测完整柑橘水果可溶性固形物含量的研究.光谱学与光谱分析,27(9):1727-1730.
82.逯志飞,李江阔,张平,黄艳凤,孙希生.2008.1-MCP对不同采收期黄金梨贮藏效果的研究.食品科技,33(3):230-233.
83.吕强,汤明杰,赵杰文,蔡健荣,陈全胜.2009.近红外光谱预测猕猴桃硬度模型的简化研究.光谱学与光谱分析,29(7):1768-1771.
84.吕天星,姜孝军,伊凯,刘志,王冬梅,杨锋,闫忠业.2008.1-MCP处理对岳帅苹果贮藏性 的影响.北方果树, (1):7-9.
85.吕有军,王彩霞,杨卫军.2008.1-MCP处理对大枣低温贮藏相关酶活性的影响.湖北农业科学,47(10):1198-1200.
86.罗自生.2004.1-MCP对柿果实软化及果胶物质代谢的影响.果树学报,21(3):229-232.
87.罗自生.2005.柿果实采后软化过程中细胞壁组分代谢和超微结构的变化.植物生理与分子生物学学报,31(6):651-656.
88.马冲,苏晶,刘凤娟,屠康.2008.不同浓度1-MCP处理对柿果贮藏品质的影响.佳木斯大学学报,26(3):421-424,427.
89.马文平,倪志婧,赵玉梅,曹建康.2010.1-MCP处理对采后甜瓜果实内源激素变化的影响.北方园艺,(18):189-193.
90.孟坤,顾玉红,赵志磊,王卉,刘磊.2009.1-MCP对“大石早生”李软化及相关酶活性的影响.食品科技,34(3):48-50,54.
91.缪十毅.1995.果中圣品话柿子.中国林业,(11):43.
92.彭丹,邓洁红,谭兴和,李美群.2009.冰温技术在果蔬贮藏中的应用研究进展.包装与食品机械,27(2):38-43.
93.邵建萍,张元湖,梁雅芹,张士刚.2008.1-甲基环丙烯处理对冷藏红星苹果蜡质中酚类含量及其抗氧化活性的影响.园艺学报,35(8):1189-1192.
94.史波林,赵镭,刘文,汪厚银,朱大洲,尹京苑.2010.苹果内部品质近红外光谱检测的异常样本分析.农业机械学报,41(2):132-137.
95.孙令强,李召虎,王倩,段留生.2005.1-甲基环丙稀对室温贮存磨盘柿的保鲜作用.中国农业大学学报,10(5):52-57.
96.孙令强,李召虎,干倩,段留生.2007.1-MCP对低温贮藏猕猴桃果实的品质及生理特性的影响.西南农业学报,20(1):35-39.
97.孙希生,刘凤之,干志华,王文辉.2004.时新保鲜剂在苹果贮藏上的应用.落叶果树,39(3):31-34.
98.孙希生,王文辉,李志强,王志华,张志云.2001.1-MCP对砀山酥梨保鲜效果的影响.保鲜与加工,1(6):14-17.
99.孙旭东,章海亮,欧阳爱国,刘燕德.2009.南丰蜜桔可溶性固形物近红外特征波段选择.农业机械学报,40(7):129-132.
100.孙竹波,孔繁华,刘震,刘忠德,季敏.2007.3.3%1-甲基环丙烯微胶囊剂(聪明鲜TM)对柿子保鲜效果的影响.山东农业科学,(4):107-108.
101.索江涛,饶景萍,付润山,李菲菲.2010.1-甲基环丙稀对红富士苹果虎皮病的控制效果.西北农业学报,19(9):55-60.
102.唐燕,杜光源,马书尚,张继澍.2010.1-MCP对室温贮藏下不同成熟度猕猴桃的生理效应.西北植物学报,31(3):564-568.
103.陶冬冰,吴荣书,蔡秀丹.2008.1-MCP处理对丽江雪桃低温贮藏防褐保鲜效果的影响.沈阳农业大学学报,39(1):114-117.
104.田长河,饶景萍,冯炜.2005.1-MCP处理对柿果实采后生理效应的影响.干旱地区农业研究,2005,23(5):122-126.
105.田长平,王延玲,刘遵春,王传增,孙家正,王娜,陈学森.2010.1-MCP和NO处理对黄金梨主要贮藏品质指标及脂肪代谢活性的影响.中国农业科学,43(14):2962-2972.
106.田建文,许明宪,贺普超.1991.柿果实采收后软化生理分析,27(2):109-111.
107.王贵喜,韩雅珊.1994.猕猴桃总淀粉酶活性与果实软化的关系.园艺学报,21(4):329-333.
108.王华瑞,冷平,赵桂芳,姬青云.2004.柿果贮藏保鲜研究进展.果树学报,21(2):164-166.
109.王华瑞,赵迎丽,李建华,王春生.2007.1-MCP对磨盘柿成熟软化的影响.保鲜与加工,7(1):24-26.
110.干加华,潘璐,李鹏飞,韩东海.2009.苹果糖度近红外光谱分析模型的温度补偿.光谱学与光谱分析,29(6):1517-1520.
111.王京海.1996.食品包装膜渗透性及其影响因素的研究.食品科学,17(12):9-14.
112.王莉,张平,王世军.2001.果蔬减压保鲜理论与技术研究进展.保鲜与加工,1(6):3-6.
113.王丽宁,王成荣,王然,马刚,王云莉.2008.1-MCP处理对采后青花菜内源激素变化的影响.中国农学通报,24(10):291-295.
114.王敏,屠康,潘磊庆,梅为云.2010.1-MCP、纳米包装及二者结合对“次郎”甜柿采后品质的影响.食品科学,31(20):459-463.
115.王清章,刘怀超,孙颉.1997.莲藕贮藏中褐变度及多酚氧化酶活性的初步研究.中国蔬菜,(3):4-6.
116.干少敏,沈广宁,薛培生.2009.1-MCP与套袋对红富士苹果贮藏生理和品质的影响.山东农业科学,(10):43-45.
117.王伟,张有林.2008.减压处理对采后杏果实软化的生理控制效应.西北植物学报,28(1):131-135.
118.王文凤,孟庆瑞,张广燕,张平,梁隐泉,冯晨静,杨建民.2007.减压贮藏对安哥诺李果实生理生化特性的影响.中国食品学报,7(2):86-91.
119.王志华,姜云斌,王文辉,丁丹丹,申春苗,王荣华,佟伟,贾晓辉.2010.丰水梨自发气调及近冰点贮藏保鲜试验研究.食品科学,31(24):449-452.
120.王志华,王文辉,佟伟,张志云,贾小辉,姜修成.2008a.不同包装方式与1-MCP处理对苹果保鲜效果的影响.江苏农业科学, (1):192-194.
121.王志华,王文辉,.佟伟,丁丹丹,贾晓辉,张志云,王宝云,王宝亮,姜修成.2008b.1-MCP处理对锦丰梨保鲜效果及CO2敏感性影响研究.辽宁农业科学, (5):6-9.
122.魏建梅,朱向秋,袁军伟,刘长江.2008.1-MCP对采后嘎拉苹果果实淀粉及细胞壁成分变化的影响.华北农学报,23(6):121-124.
123.文建萍,陈兴苗,孙旭东,刘燕德.2007.可见近红外漫反射光谱法测定赣南脐橙的表面色泽.安 徽农业科学,35(36):11805-11806.
124.肖亚芳.2008.柿子的特性与柿饼的制作.农产品加工,(7):32-33.
125.肖志伟,张明渊,程虹波,涂洪强,张洵,石媛,王仁才.2010.喷钙与1-MCP处理对提高猕猴桃耐贮性的影响.湖南农业科学,(1):109-112.
126.熊小辉.2010.冰温技术在食品贮藏保鲜中的研究.广西轻工业,(1):11-12.
127.徐怀德,卢小勇,刘兴华,等.1994.柿子果酱加工中保鲜脱涩与防返涩技术.食品科学,15(3):21-24.
128.徐辉艳,孙晓东,张佩君,李憬琦,濮智颖,李琼.2009.红枣汁中总酚含量的福林法测定.食品研究与开发,30(3):126-128.
129.徐莉莉,韩育梅,许心青,杨维,孙吉.2008.1-甲基环丙烯(1-MCP)处理对河套蜜瓜在常温贮藏条件下品质的影响.内蒙古农业大学学报,29(2):97-101.
130.薛文通,李里特,赵凤敏.1997.桃的冰温贮藏研究.农业工程学报,13(4):216-220.
131.杨虎清,王允祥,庞林江,吴峰华,张民.2008.1-MCP对不同成熟度白凤桃冷害发生的影响.果树学报,25(1):111-114.
132.杨虎清,吴峰华,周存山,王允祥.2010.“东魁”杨梅在减压贮藏过程中品质及相关酶活性的变化.中国食品学报,10(1):161-166.
133.杨娟侠,鲁墨森.2008.1-MCP对金太阳杏采后生理和保鲜效果的影响.北方园艺,(1):235-237.
134.尹淑涛,薛文通,张惠.2008.冰温技术及其在食品保鲜上的应用.农产品加工学刊,(7):138-140.
135.应义斌,韩东海.2005.农产品无损检测技术.北京:化学工业出版社,35-37.
136.应义斌,刘燕德.2003.水果内部品质光特性无损检测研究及应用.浙江大学学报(农业与生命科学版),29(2):125-129.
137.虞佳佳,何勇,鲍一丹.2008.基于光谱技术的芒果糖度酸度无损检测方法研究.光谱学与光谱分析,28(12):2839-2842.
138.曾顺德,文泽富,谢永红.2005.冰温处理对白柚次生代谢产物及相关酶活性的影响.食品科学,26(11):250-252.
139.曾一凡,刘春生,孙旭东,陈兴苗,刘燕德.2008.可见/近红外光谱技术无损检测果实坚实度的研究.农业工程学报,24(5):250-252.
140.翟莉艳,张平,孟宪军,王莉.2005.减压贮藏对柿果实采后生理生化的影响.山西食品工业,(4):7-9.
141.张帆,任小林,王位涛,王小会.2008.采后1-MCP处理对富十苹果灰霉病的影响.西北农业学报,17(3):210-214.
142.张辉,王静,逢焕明,李学文.2009.1-MCP处理对李光杏采后生理代谢的影响.新疆农业科学,46(2):281-284.
143.张辉玲,胡位荣,庞学群,张昭其.2006a.冰温与SO2缓释剂对龙眼贮藏的影响.园艺学报,33(6):1325-1328.
144.张辉玲,刘明津,张昭其.2006b.果蔬采后冰温贮藏技术研究进展.热带作物学报,27(1):101-104
145.张家年,胡慰望,陈妙颜,干清章,谭军.1992.柿脱涩方法的研究.华中农业大学学报,11(3):280-283.
146.张明德.2008.柿现代生产技术.北京:北京科学技术出版社,1-2.
147.张宇,饶景萍,孙允静,李珊珊.2010.1-甲基环丙烯对甜柿贮藏冷害的控制作用.园艺学报,37(4):547-552.
148.赵斌,谢阳青.2003.真空包装技术在柿果脱涩保鲜中的应用.农产品加工,(4):39.
149.赵博,饶景萍.2005.柿果实采后胞壁多糖代谢及其降解酶活性的变化.西北植物学报,25(6):1199-1202.
150.赵杰文,张海东,刘木华.2005.利用近红外漫反射光谱技术进行苹果糖度无损检测的研究.农业工程学报,21(3):162-165.
151.赵亚霞,李丽萍,李学文,冯作山.2007.超声波结合真空包装对冷藏涩柿品质和生理变化的影响.食品科技,32(3):249-251.
152.郑巧林.2001.柿果真空包装脱涩和保鲜技术的研究.武汉:华中农业大学,10-11.
153.朱东兴,饶景萍,任小林,蒲鹏.2004a.柿果实1-甲基环丙烯处理对成熟软化的影响.同艺学报,31(1):87-89.
154.朱东兴,饶景萍,周存田,唐爱均.2004b.1-MCP对柿贮藏期间几种生理变化的影响.西北植物学报,24(6):1061-1065.
155. Akl A M, Eid A M, Ahmed F F.1994.Effect of postharvest application of calcium salts on shelf life and quality of lecont pear fruits during cold storage. Postharvest Symposium, Agadir, Morocco,1-20.
156. Alamar M C, Bobelyn E, Lammertyn J, Nicolai B M, Molto E.2007.Calibration transfer between NIR diode array and FT-NIR spectrophotometers for measuring soluble solids contents of apple. Postharvest Biology and Technology,45(1):38-45.
157. An D S, Park E, Lee D S.2009.Effect of hypobaric packaging on respiration and quality of strawberry and curled lettuce.Postharvest Biology and Technology,52(1):78-83.
158. Argiriou S, Nanos G D.2010.Preharvest avg and kaolin and postharvest 1-MCP application effects on advanced maturity peach quality and storage. Acta Hort. (ISHS),877:311-317.
159. Arnal L, Del Rio M A.2004.Effect of cold storage and removal astringency on quality of persimmon fruit (Diospyros kaki, L.) cv. Rojo Brillante.Food Science and Technology. International, 10(3):179-185.
160. Ben-Aire R, Guelfat-Reich S.1976.Softening effects of CO2 treatment for removal of astringency from stored persimmon fruits. Journal of the American Society for Horticultural Science,101(2), 179-181.
161. Blankenship S M, Dole J M.2003.1-Methylcyclopropene:a review.Postharvest Biology and Technology,28(1):1-25.
162. Blum J, Ayub R A.2009.Control of 'Quioto' persimmons ripening treated with 1-methylcyclopropene and stored at 20±4℃.Revista Ceres,56(2):119-123.
163. Cayuela J A.2008.Vis/NIR soluble solids prediction in intact oranges(Citrus sinensis L.) cv. Valencia late by reflectance. Postharvest Biology and Technology,47(1):75-80.
164. Cefola M, Amodio M, Rinaldi R, Vanadia S, Colelli G.2010.Exposure to 1-methylcyclopropene (1-MCP) delays the effects of ethylene on fresh-cut broccoli raab (Brassica rapa L.). Postharvest Biology and Technology,58(1):29-35.
165. Celikel F G, Ozelkok, S, Acican, T.2010.Effect of 1-MCP (1-methylcyclopropene) pretreatment on cold storage of 'granny smith' apples. Acta Hort. (ISHS),877:339-344.
166. Celikel F G., Acican T, Aslim A S.2010.Effect of 1-MCP (1-methylcyclopropene) pretreatment on cold storage of kiwifruit. Acta Hort. (ISHS),876:237-242.
167. Chin L H, Ali Z M, Lazan H.1999.Cell wall modifications, degrading enzymes and softening of carambola fruit during ripening. Journal of Experimental Botany,50(335):767-775.
168. Cozzolino D, Esler M B, Dambergs R G, Cynkar W U, Boehm D R, Francis I L, Glshen M.2004. Prediction of colour and pH in grapes using a diode array spectrophotometer (400-1100nm). Journal of Near Infrared Spectroscopy,12(2):105-111.
169. Desikan R, Cheung M K, Bright J, Henson D, Hancock J T, Neill S J.2004. ABA, hydrogen peroxide and nitric oxide signaling in stomatal guard cells.Joural of Experimental Botany,55(395):205-212
170. Kurahashi T, Matsumoto T, Ihamura H.2005.Ice-treated Japanese persimmon 'Saijo' harvested at various maturation stages. Journal of the Japanese Society for Horticultural Science,4(1):63-67.
171. Egea I, Flores F B, Martinez-Madrid M C, Romojaro F, Sanchez-Bel P.2010.1-Methylcyclopropene affects the antioxidant system of apricots(Prunus armeniaca L. cv. Bulida) during storage at low temperature. Journal of the Science of Food and Agriculture,90(4):549-555.
172. Fan X, Argenta L. MattheisJ P.2000.Inhibition of ethylene action by 1-methylcyclopro-pene prolongs storage life of apricots.Postharvest Biology and Technology,20(2):135-142.
173. Fawbush F, Nock J F, Watkins C B.2009.Antioxidant contents and activity of 1-methylcyclopropene (1-MCP)-treated 'Empire' apples in air and controlled atmosphere storage. Postharvest Biology and Technology,52(1):30-37.
174. Fischer R L, Bennett A B.1991. Role of cell wall hydrolases in fruit ripening. Annu Rev Plant Physiol Plant Mol Biol,42:675-703.
175. Fumuro M, Gamo H.2002.Effects of cold storage on CO2 treated Japanese persimmon(Diospyros kaki Tunb.) Hiratanenashi packed in poly ethylene bags of different thickness. J Japan Soc Hort Sci,71(2): 300-302.
176. Gamrasni D, Ben-Arie R, Goldway M.2010.1-Methylcyclopropene (1-MCP) application to Spadona pears at different stages of ripening to maximize fruit quality after storage.Postharvest Biology and Technology.58(2):104-112.
177. Gomez A H, He Y, Pereira A G.2006.Non-destructive measure of acidity, soluble solids and firmness of Satsuma mandarin using Vis/NlR-spectroscopy techniques. Journal of Food Engineeing, 77(2):313-319.
178. Greensill C V, Walsh K B.2002.Calibration transfer between miniature photodiode array-based spectrometers in the near infrared assessment of mandarin soluble solids content.Journal of Near Infrared Spectroscopy,10(1):27-35.
179. Guillen F, Castillo S, Zapata P J, Martinez-Romero D, Valero D.2008.Efficacy of 1-MCP treatment in tomato fruit: 1.Duration and concentration of 1-MCP treatment to gain an effective delay of postharvest ripening. Postharvest Biology Technology,43(1):23-27.
180. Harima S, Nakano R, Yamauchi S, Kitano Y, Inaba A, Tomita E.2002.Inhibition of fruit softening in forcing-cultured 'Tonewase' Japanese persimmon by packaging in perforated and nonperforated polyethylene bages. J Japan Soc Hort Sci,72(1):284-291.
181. Harima S, Nakano R, Yamauchi S, Kitano Y, Yamamoto Y, Inaba A, Kubo Y.2003. Extending shelf-life of astringent persimmon (Diospyros kaki Thunb.) fruit by 1-MCP. Postharvest Biology and Technology,29(3):319-324.
182. Jeong J, Huber D J, Sargent S A.1999.The potential benefits of 1-MCP for regulating the ripening and extending the storage life of avocados.HortScience,34(3):538-544.
183. Kader A A, Zagory D, Kerbel E L.1989.Modified atmosphere packaging of fruits and vegetables.Crit. Rev. Food Sci. Nutr.,28(1):1-30.
184. Kashimura Y, Hayama H, Ito A.2010.Infiltration of 1-methylcyclopropene under low pressure can reduce the treatment time required to maintain apple and Japanese pear quality during storage. Postharvest Biology and Technology,57(1):14-18.
185. Kawada K.1982.Use of polymeric films to extend postharvest life and improve marketability of fruits and vegetables-Unipack individually wrapped storage of tomatoes, oriental persimmons and grape fruit. In:Richardson D G, Meheriuk M, Controlled Atmosphere for Storage and Transport of Perishable Agricultural Commodities, (ED).Beaverton, OR.Timer Press,87.
186. Khan A S, Singh Z.2009.1-MCP application suppresses ethylene biosynthesis and retards fruit softening during cold storage of 'Tegan Blue' Japanese plum. Plant Science,176(4):539-544.
187. Lee M, Macmillan J D.1968.Mode of action of pectic enzymes.I. purification and certain properties of tomato pectinesterase.Biochemistry,7(11):4005-4010.
188. Lee Y S, Chung D S, Harte B R, Shin J M.2010. Effect of 1-methylcyclopropene (1-MCP) treatment on the quality characteristics and pigmentation of tomato fruit (Lycopersicon esculentum Mill.). Korean Journal of Horticultural Science & Technology,28(4):600-608.
189. Li X H, Zhang L, Wang X L, Li Y Y.2010.Effect of 1-MCP and CaCl2 on quality of Chinese jujube stored at low temperature. Advanced Materials Research,156:367-370.
190. Liu L, Rao J P, Chang X X, Yi S C.2009.Regulation of propylene and 1-methylcyclopropene on expressions of ACS and ACO genes in persimmon fruits. Agricultural Sciences in China, 8(10):1187-1192.
191.Lohani S, Trivedi P K, Nath P.2004.Changes in activities of cell wall hydrolases during ethylene-induced ripening in banana: effect of 1-MCP, ABA and IAA. Postharvest Biology and Technology,31(2):119-126.
192. Lu R, Guyer D E, Beaudry R M.2007.Determination of firmness and sugar content of apples using near-infrared diffuse reflectance. Journal of Texture Studies,31(6):615-630.
193. Marin A B, Colonna A E, Kudo K, Kupferman E M, Mattheis J P.2009.Measuring consumer response to 'Gala' apples treated with 1-methylcyclopropene (1-MCP). Postharvest Biology and Technology, 51(1):73-79.
194. Marin M A, Cano M P.1992.Patterns of peroxidase in ripening mango (Mangifera indica, L.) fruits.J.Food Sci.,57(3):690-692.
195.Matsuo T, Itoo S, Ben-Arie R.1991. A model experiment for elucidating the mechanism of astringency removal in persimmon fruit using respiration inhibitors. J.Japan. Soc. Hort. Sci., 60(2):437-442.
196. Matsuo T, Itoo S.1982.A model experiment for de-astringency of persimmon fruit with high carbon dioxide treatment:in vitro gelation of kaki-tannin by reacting with acetaldehycle. Agric Biol Chen, 46(3):683-689.
197. McGlone V A, Jordan R B, Martinsen P J.2002.Vis/NIR estimation at harvest of pre- and post-storage quality indices for 'Royal Gala' apple. Postharvest Biology and Technology,25(2):135-144.
198. Nieolai B M, Verlinden B E, Desmet M, Saevels S, Saeys W, Theron K, Cubeddu R, Pifferi A, Torricelli A.2008.Time-resolved and continuous wave NIR reflectance spectroscopy to predict soluble solids content and firmness of pear. Postharvest Biology and Technology,47(1):68-74.
199. Ortiz A, Graell J, Lopez M L, Echeverria G, Lara 1.2010.Volatile ester-synthesising capacity in 'Tardibelle' peach fruit in response to controlled atmosphere and 1-MCP treatment. Food Chemistry, 123(3):698-704.
200. Oz A T.2011.Combined effects of 1-methyl cyclopropene (1-MCP) and modified atmosphere packaging (MAP) on different ripening stages of persimmon fruit during storage. African Journal of Biotechnology,10(5):807-814.
201. Peirs A, Lammertyn J, Ooms K, Nicolai B M.2001.Prediction of the optimal picking date of different apple cultivars by means of VIS/NIR-spectroscopy. Postharvest Biology and Technology, 21(2):189-199.
202. Peirs A, Schenk A, Nicolai B M.2005.Effect of natural variability among apples on the accuracy of VIS/NIR calibration models for optimal harvest date predictions. Postharvest Biology and Technology, 35(1):1-13.
203. Pesis E, Ben-Arie R.1984.Involvement of acetaldehyde and ethanol accumulation during induced deastringency of persimmon fruits. Journal of Food Science,49(3):896-899.
204. Plainsirichail M, Trinok U, David W T.2010.1-methylcyclopropene (1-MCP) reduces water loss and extends shelf life of fruits of Rose apple (Syzygium jambos Alston) cv. Tabtim Chan. Fruits, 65(3):133-140.
205. Ramin A A.2008. Shelf-life extension of ripe non-astringent persimmon fruit using 1-MCP. Asian Journal of Plant Sciences,7(2):218-222.
206. Rangel M, Valenzuela E, Cepeda S, Barajas S, Torres V, Enciso O.2009.Effect of 1-methylcyclopropene (1-MCP) and an edible coating on enzyme activity and postharvest quality of mango'Ataulfo'. Revista Fitotecnia Mexicana,32(1):53-60.
207. Reich G, Arie B, Metal N.1975.Effect of CO2during and following storage on removal of astringency and keeping quality of Triumph persimmons.J Japan Soc Hort Sci,100:95-98.
208. Redgwell R J, MacRae E, Hallett I, Fischer M, Perry J, Harker R.1997.In vivo and in vitro swelling of cell walls during fruit ripening. Planta,203(2):162-173.
209. Saftner R, Luo Y, McEvoy J, Abbott J A, Vinyard B.2007.Quality characteristics of fresh-cut watermelon slices from non-treated and 1-MCP-and/or ethylene-treated whole fruit. Postharvest Biology and Technology,44(1):71-79.
210. Salvador A. Cuquerella J, Martinez-Javega J M, Monterde A, Navarro P.2004.1-MCP preserves the firmness of stored persimmon'Rojo Brillante'. Journal of Food Science,69(2):69-73.
211. Schaare P N, Fraser D G.2000.Comparison of reflectance, interactance and transmission modes of visible-near infrared spectroscopy for measuring internal properties of kiwifruit (Actinidia chinensis). Postharvest Biology and Technology,20:175-184.
212. Serek M, Sisler E C, Reid M S.1994.Novel gaseous ethylene binding inhibitor prevents ethylene effects in potted flowering plants. J. Amer. Soc. Hort. Sci.,119(6):1230-1233.
213. Serrano M, Martinez-Romero D, Guillen F, Castillo S, Valero D.2006.Maintenance of broccoli quality and functional properties during cold storage as affected by modified atmosphere packaging. Postharvest Biology and Technology,39(1):61-68.
214. Siegrist J P, Cotter P Y.2009.The effect of 1-MCP on Mairac(?) apples under different storage temperatures and under ULO atmosphere.Revue Suisse de Viticulture, Arboriculture et Horticulture, 41(6):337-343.
215. Sisler E C, Serek M.1997.Inhibitor of ethylene responses in plants at the receptor level:recent developments.Physiology Plant,100(3):577-582.
216. Seymour D B, Gross K C.1996.Cell wall disassembly and fruit softening. Postharvest News Inform, 7(3):45-52.
217. Taira S, Itamura H, Abe K, Watanabe S.1989.Comparison of the characteristics of removal of astringency in two Japanese persimmon cultivars Denkuro and Hiratanenashi. J Japan Soc Hort Sci, 58:319-335.
218. Taira S, Kubo Y. Sugiura A, Tomana T.1987.Comparative studies of postharvest fruit quality and storage quality in Japanese persimmon (Diospyros kaki L. cv.'Hiratanenashi') in relation to different methods for removal of astringency. Journal of the Japanese Society for Horticultural Science,56(2): 215-221.
219. Taira S, Ono M, Matsumoto N.1997.Reduction of persimmon astringency by complex formation between pectin and tannins. Postharvest Biology and Technology,12(3):265-271.
220. Tamura F, Tanabe K, Itai A, Hasegawa M.1999.Characteristics of acetaldehyde accumulation and removal of astringency with ethanol and carbon dioxide treatments in 'Saijo' persimmon Fruit. Journal of the Japanese Society for Horticultural Science,68(6):1178-1183.
221.Tatsuki M, Endo A, Ohkawa H.2007.Influence of time from harvest to 1-MCP treatment on apple fruit quality and expression of genes for ethylene biosynthesis enxymes and ethylene receptor. Postharvest Bioltechnol,43(1):28-35.
222. Villalobos Acuna M G. Biasi W V, Mitcham E J, Holcroft D.2011.Fruit temperature and ethylene modulate 1-MCP responsein 'Bartlett' pears. Postharvest Biology and Technology,60(1):17-23.
223.Yamada M, Taira S, Ohtsuki M, Sato A, Iwanami H, Yakushiji H, Wang R, Yang Y, Li G C.2002.Varietal differences in the ease of astringency removal by carbon dioxide gas and ethanol vapor treatments among Oriental astringent persimmons of Japanese and Chinese origin. Scientia Horticulturae,94(1):63-72.
224. Yuan G F, Sun B, Yuan J, Wang Q M.2010.Effect of 1-methylcyclopropene on shelf life, visual quality, antioxidant enzymes and health-promoting compounds in broccoli florets.Food Chemistry, 118(3):774-781.
225. Zhang H X, Bi Y, Li Y C, Liu J, Gao X H, Zheng X Y.2010.Effect of 1-MCP on postharvest yellowing and quality of Asia pear (pyrus bretchneideri rehd.'early crisp') during ambient storage. Acta Hort.(ISHS).876:243-249.
226. Zhang M J. Jiang Y M, Jiang W B, Liu X J.2006.Regulation of ethylene synthesis of harvested banana fruit by 1-methylcyclopropene.Food Technology and Biotechnology,44(1):111-115.
227. Zude M, Herold B. Roger J M, Bellon-Maurel V, Landahl S.2006. Non-destructive tests on the prediction of apple fruit flesh firmness and soluble solids content on tree and in shelf life. Journal of Food Engineering.77(2):254-260.
2. 蔡健鹰.2000.涩柿脱涩的几种方法.柑桔与亚热带果树信息,16(8):37-38.
3. 蔡宋宋,王宝刚,李文生,冯晓元,王纪华,张春财.2010.杏贮藏期间可溶性固形物和硬度的近红外光谱检测.光谱实验室,27(3):1185-1189.
4. 曹干.2004.现代近红外光谱分析技术在农业研究中的应用.广东农业科学,(B12):26-31.
5. 曹建康,谈小芳,王敏,赵玉梅,姜微波.2008.1-甲基环丙烯(1-MCP)真空渗透处理对货架期杏果实采后生理和品质的影响.食品工业科技,29(4):254-257.
6. 曹永庆,李壮,任杰,胡莹,冷平.2007.磨盘柿贮藏保鲜试验研究.保鲜与加工,7(6):31-34.
7. 常燕平,王如福,王国盛.2005.减压处理对梨枣果实采后生理及贮藏效果的影响.中国农学通报,21 (2):196-129.
8. 陈建业.2007柿品种鉴定及分类研究进展.山东林业科技,(4):60-63.
9. 陈金印,刘康.2008.1-MCP处理对秋番茄果实采后生理及贮藏效果的影响.食品科学,29(10):598-603.
10.陈文烜,郜海燕,陈杭君,毛金林,宋丽丽,葛林梅.2010.减压贮藏对软溶质水蜜桃采后生理和品质的影响.农业机械学报,41(9):108-112.
11.陈现臣,王彩霞.2009.1-MCP对桃果实贮藏保鲜中细胞膜相对透性的影响.湖北农业科学,48(8):1980-1982.
12.陈鑫瑶,生吉萍,胡朋,王菲,赵丹莹,中琳.2008.外源乙烯和1-MCP处理对番茄采后贮藏抗冷性的影响.食品科学,29(7):466-469.
13.陈义伦,古习娟,刘宾,张蕾.2006.C02浓度和温度对柿子脱涩效果的影响.食品与发酵工业,32(4):74-77.
14.褚小立,袁洪福,陆婉珍.2006.近年来我国近红外光谱分析技术的研究与应用进展.分析化学,(2):1-10.
15.崔彦.2008.减压条件对梨枣生理生化变化的影响.安徽农业科学,36(29):12900-12901.
16.丁丹丹,王志华,佟伟,王文辉,张志云,姜修成.2008.1-MCP处理对圆黄梨MA包装果实冷藏效果研究.江西农业学报,20(1):68-71.
17.董国庆,李莉,班兆军,李喜宏.2009.1-MCP对灵武长枣采后生理变化的影响.保鲜与加工, 9(5): 15-18.
18.董十远,张平,纪淑娟.2002.C02脱涩脱涩处理对柿果贮藏品质的影响.食品科学,23(10):105-109.
19.董十远.2001.CO2脱涩处理对柿果生理生化特性及保鲜效果的影响.沈阳:沈阳农业大学,1-2.
20.董守龙,任芊,黄友之.2004.近红外光谱分析技术的发展和应用.化学生产与技术,(6):44-46.
21.冯晓元,王宝刚,李文生,闫国华,张开春,姜微波.2008.近红外漫反射光谱预测久保桃可溶性 固形物初步实验研究.食品工业科技,29(3):273-275.
22.付永琦,陈明,刘康,陈金印.2007.1-MCP二次处理对猕猴桃果实采后生理生化及贮藏效果的影响.果树学报,24(1):43-48.
23.傅霞萍,应义斌,刘燕德,陆辉山.2006.水果坚实度的近红外光谱检测分析试验研究.光谱学与光谱分析,26(6):1038-1041.
24.郜海燕,宋丽丽,周拥军,杨颖,陈文烜,陈杭君,毛金林,郑永华.2008.减压贮藏对冷藏枇杷果实品质和木质化败坏的影响.农业工程学报,24(6):245-249.
25.龚新明,关军锋,张继澍.2010.皇冠梨采后1-MCP和CaCl2处理对品质和果皮褐斑发生的影响.园艺学报,37(3):375-382.
26.辜青青,房剑锋.2007.柿果脱涩机理及人工脱涩方法.现代园艺,2007, (2):26-27.
27.关军锋.1994.采后雪梨衰老与过氧化作用.河北农业大学学报,17(2):6-9.
28.郭孝辉,房淑珍,王颉,郭雪霞,徐立强,袁丽.2006.C02处理对磨盘柿果实质地及品质的影响.食品研究与开发,27(8):156-159.
29.韩军岐,张有林.2006.蒜薹减压贮藏技术研究.吉林农业大学学报,28(2):222-225.
30.韩育梅,张少英,徐莉莉,杨维.2008.1-甲基环丙烯对河套蜜瓜后熟和软化的影响.中国农业大学学报,13(2):39-43.
31.郝晓玲,王如福.2004.减压贮藏对鲜枣保鲜效果的影响.粮油加工与食品机械,35(6):70-72.
32.郝再彬,苍晶,徐忡.植物生理实验.2004.哈尔滨:哈尔滨工业大学出版社,106-117.
33.何金光,任惠,苏伟强,朱建华,黄宏明.2008.1-MCP对田阳香芒采后生理指标和贮藏品质的影响.广西农业科学,39(1):80-83.
34.河北农业大学.1989.果树栽培学各论.北京:农业出版社,274-294.
35.胡芳,马书尚,候大光.2007.甜柿采后生理特性及对1-MCP处理的反应.西北植物学报,27(3):0571-0576.
36.胡芳,马书尚,张继澍,韩青梅,赵刚,武春林.2009.1-甲基环丙稀对“富有”甜柿采后主要生理指标及细胞超微结构的影响.园艺学报,36(4):487-492.
37.胡位荣,张昭其,蒋跃明.2005.采后荔枝冰温贮藏的适宜参数研究.中国农业科学,38(4):797-802.
38.黄利刚,李慧娜,张亮,王清章.2008.冰温贮藏对莲藕品质的影响.华中农业大学学报,27(2):317-320.
39.黄森,张继澍,李维平.2003.减压处理对采后柿果实软化生理效应的影响.西北农林科技大学学报·自然科学版,31(5):57-60.
40.黄森,张继澍.2001.低乙烯减压处理对柿果实乙烯生物合成的影响.西北植物学报,21(2):318-322.
41.黄艳凤,王永婵,张平.2009.静态顶空气相色谱法快速测定葡萄中乙醇和乙醛含量的研究.保鲜与加工,9(6):28-30.
42.惠伟,顾茹英.1993.柿子的气调贮藏技术研究初报.天津农业科学,(2):20-22.
43.惠伟,牛瑞雪,宋要强,李德英.2010.1-MCP和DPA对砀山酥梨黑皮病的抑制效果.中国农业科学,43(6):1212-1219.
44.吉海彦.2001.近红外光谱仪器及其在农业中的影响.仪器仪表学报,22(4)增刊:356-357.
45.纪淑娟,郭威,魏宝东,程顺昌.2008.1-MCP对不同采收期南果梨常温保鲜效果研究.中国果树,(1):27-30.
46.江英,童军茂,陈友志.2004.草莓冰温贮藏保鲜技术的研究.食品科技,29(10):85-87.
47.姜孝军,伊凯,刘志,王冬梅,杨锋,闫忠业,吕天星.2008.1-MCP处理对昂林苹果贮藏性的影响.山西果树, (6):9-10.
48.姜云斌,佟伟,王志华,王文辉,都兴日,夏玉静.2010.1-MCP处理对明珠、贵妃梨货架期品质的影响.中国农学通报,26(21):67-70.
49.蒋雨松.1999.柿果的脱涩原理及方法.江西园艺,(5):30-31.
50.金宏,惠伟,丁雅荣,张鸿,牛瑞雪.2009.1-MCP对“粉红女十”苹果冷藏期间品质变化和香气形成的影响.西北植物学报,29(4):754-761.
51.孔莹,晋彭辉,王燕,李红卫.2009.减压贮藏对绿芦笋不同部位品质的影响.食品工业科技,30(12):335-337,341.
52.冷平,李宝,张文,贾克功.2003.磨盘柿的二氧化碳脱涩技术研究.中国农业科学,36(11):1333-1336.
53.李宝,冷平.2009.国内外柿生产和贸易现状与发展趋势.第四届全国柿生产和科研进展研讨会,20-27.
54.李灿,饶景萍.2004.薄膜包装对于柿果冷藏生理及品质变化的影响.西北植物学报,2004,24(9):1604-1608.
55.李锋.2008.1-MCP对丰水梨常温贮藏的影响.北方园艺, (4):252-254.
56.李军.2000.钼蓝比色法测定还原型维生素C.食品科学,21(8):42-45.
57.李合生.植物生理生化实验原理和技术.1999.北京:高等教育出版社,164-169.
58.李共国,马子骏.2004.桑椹贮藏保鲜中糖酸比变化及影响因素的研究.蚕业科学,30(1):104-106.
59.李桂峰,赵国建,刘兴华,肖春玲.2009.苹果硬度的傅里叶变换近红外光谱无损检测.农业机械学报,40(1):120-123.
60.李江阔,李爽,张平,黄艳凤,纪淑娟.2007.1-MCP处理对磨盘柿货架期果实保脆效果的影响.沈阳农业大学学报,38(2):162-165.
61.李江阔2010.果蔬贮运保鲜中的1-MCP应用技术.天津:天津科技翻译出版公司,1-12.
62.李丽梅,冯云霄,关军锋,龚新明,及华,孙玉龙,孙希生.2010.1-MCP处理对雪桃呼吸、乙烯和贮藏品质的影响.河北农业大学学报,33(3):27-32.
63.李丽萍,韩涛,刘佳阳,郭冬梅.1998.单果真空包装对冷藏涩柿品质和有关生化变化的影响.农业工程学报,14(1):233-237.
64.李梅,王贵禧,梁丽松,祝美云,李振茹,元丽萍.2009.1-甲基环丙稀处理对西洋梨常温贮藏 的保鲜效果.农业工程学报,25(12):345-350.
65.李珊珊,饶景萍,孙允静,张宇,高亢.2010.早熟苹果新品种秦阳采后贮藏特性及其对1-MCP的反应西北农业学报,19(5):113-116,166.
66.李萍,韩涛,李丽萍,王忠民.2007.超声波结合钙处理对桃果实采后活性氧代谢的影响.林业科学,43(8):36-40.
67.李盛仙.1995.冬令珍果—柿子.健康,(12):30-31.
68.李爽,张平,李江阔,刘成红.2007.高浓度CO2和1-MCP处理对磨盘柿脱涩和保脆效果的影响.安徽农业科学,35(7):2082-2083,2147.
69.李雯,邵远志,陈维信.2005.淀粉酶活性测定方法的改进.植物生理学通讯,41(5):655-656.
70.李志强,乔玉山,徐长宝,章镇,蔺经.2008.不同后熟期“菊水”梨果实对外源乙烯和1-MCP处理的生理响应.西北植物学报,28(9):1862-1867.
71.李志强,汪良驹,王文辉,朱云娜.2007.1-甲基环丙烯延缓果实衰老的生理效应及其应用.植物生理学通迅,43(1):201-206.
72.刘成红,李江阔,张平,李爽,黄艳凤.2008.1-MCP对磨盘柿冷藏期间生理生化及贮藏效果的影响.保鲜与加工,8(2):23-26.
73.刘法英,张永,高同雨,伏芳,田军.2007.柿果低温浸藏脱涩保鲜技术研究.北方园艺,(7):208-210.
74.刘乐,饶景萍,常晓晓,弋顺超.2009.丙烯和1-MCP处理对采后柿果实ACS和ACO基因表达的影响.中国农业科学,42(6):2092-2097.
75.刘兴华,饶景萍.1998.果品蔬菜贮运学.西安:陕西科学技术出版社,215-217.
76.刘亚强,张渭滨.2000.柿果后熟过程中的品质变化及脱涩机理.渭南师专学报(自然科学版),15(2):28-31.
77.刘燕德,陈兴苗,欧阳爱国.2008a.梨表面色泽的可见/近红外漫反射光谱无损检测研究.红外与毫米波学报,27(4):266-268.
78.刘燕德,孙旭尔,陈兴苗.2008b.近红外漫反射光谱检测梨内部指标可溶性固形物的研究.光谱学与光谱分析,28(4):797-800.
79.刘元寿,颉敏华.2005.1-MCP在果蔬贮藏保鲜中的应用.甘肃农业科技,(4):31-33.
80.龙兴桂.2000.现代中国果树栽培(落叶果树卷).北京:中国林业出版社,709-711.
81.陆辉山,傅霞萍,谢丽娟,应义斌.2007.可见/近红外光估测完整柑橘水果可溶性固形物含量的研究.光谱学与光谱分析,27(9):1727-1730.
82.逯志飞,李江阔,张平,黄艳凤,孙希生.2008.1-MCP对不同采收期黄金梨贮藏效果的研究.食品科技,33(3):230-233.
83.吕强,汤明杰,赵杰文,蔡健荣,陈全胜.2009.近红外光谱预测猕猴桃硬度模型的简化研究.光谱学与光谱分析,29(7):1768-1771.
84.吕天星,姜孝军,伊凯,刘志,王冬梅,杨锋,闫忠业.2008.1-MCP处理对岳帅苹果贮藏性 的影响.北方果树, (1):7-9.
85.吕有军,王彩霞,杨卫军.2008.1-MCP处理对大枣低温贮藏相关酶活性的影响.湖北农业科学,47(10):1198-1200.
86.罗自生.2004.1-MCP对柿果实软化及果胶物质代谢的影响.果树学报,21(3):229-232.
87.罗自生.2005.柿果实采后软化过程中细胞壁组分代谢和超微结构的变化.植物生理与分子生物学学报,31(6):651-656.
88.马冲,苏晶,刘凤娟,屠康.2008.不同浓度1-MCP处理对柿果贮藏品质的影响.佳木斯大学学报,26(3):421-424,427.
89.马文平,倪志婧,赵玉梅,曹建康.2010.1-MCP处理对采后甜瓜果实内源激素变化的影响.北方园艺,(18):189-193.
90.孟坤,顾玉红,赵志磊,王卉,刘磊.2009.1-MCP对“大石早生”李软化及相关酶活性的影响.食品科技,34(3):48-50,54.
91.缪十毅.1995.果中圣品话柿子.中国林业,(11):43.
92.彭丹,邓洁红,谭兴和,李美群.2009.冰温技术在果蔬贮藏中的应用研究进展.包装与食品机械,27(2):38-43.
93.邵建萍,张元湖,梁雅芹,张士刚.2008.1-甲基环丙烯处理对冷藏红星苹果蜡质中酚类含量及其抗氧化活性的影响.园艺学报,35(8):1189-1192.
94.史波林,赵镭,刘文,汪厚银,朱大洲,尹京苑.2010.苹果内部品质近红外光谱检测的异常样本分析.农业机械学报,41(2):132-137.
95.孙令强,李召虎,王倩,段留生.2005.1-甲基环丙稀对室温贮存磨盘柿的保鲜作用.中国农业大学学报,10(5):52-57.
96.孙令强,李召虎,干倩,段留生.2007.1-MCP对低温贮藏猕猴桃果实的品质及生理特性的影响.西南农业学报,20(1):35-39.
97.孙希生,刘凤之,干志华,王文辉.2004.时新保鲜剂在苹果贮藏上的应用.落叶果树,39(3):31-34.
98.孙希生,王文辉,李志强,王志华,张志云.2001.1-MCP对砀山酥梨保鲜效果的影响.保鲜与加工,1(6):14-17.
99.孙旭东,章海亮,欧阳爱国,刘燕德.2009.南丰蜜桔可溶性固形物近红外特征波段选择.农业机械学报,40(7):129-132.
100.孙竹波,孔繁华,刘震,刘忠德,季敏.2007.3.3%1-甲基环丙烯微胶囊剂(聪明鲜TM)对柿子保鲜效果的影响.山东农业科学,(4):107-108.
101.索江涛,饶景萍,付润山,李菲菲.2010.1-甲基环丙稀对红富士苹果虎皮病的控制效果.西北农业学报,19(9):55-60.
102.唐燕,杜光源,马书尚,张继澍.2010.1-MCP对室温贮藏下不同成熟度猕猴桃的生理效应.西北植物学报,31(3):564-568.
103.陶冬冰,吴荣书,蔡秀丹.2008.1-MCP处理对丽江雪桃低温贮藏防褐保鲜效果的影响.沈阳农业大学学报,39(1):114-117.
104.田长河,饶景萍,冯炜.2005.1-MCP处理对柿果实采后生理效应的影响.干旱地区农业研究,2005,23(5):122-126.
105.田长平,王延玲,刘遵春,王传增,孙家正,王娜,陈学森.2010.1-MCP和NO处理对黄金梨主要贮藏品质指标及脂肪代谢活性的影响.中国农业科学,43(14):2962-2972.
106.田建文,许明宪,贺普超.1991.柿果实采收后软化生理分析,27(2):109-111.
107.王贵喜,韩雅珊.1994.猕猴桃总淀粉酶活性与果实软化的关系.园艺学报,21(4):329-333.
108.王华瑞,冷平,赵桂芳,姬青云.2004.柿果贮藏保鲜研究进展.果树学报,21(2):164-166.
109.王华瑞,赵迎丽,李建华,王春生.2007.1-MCP对磨盘柿成熟软化的影响.保鲜与加工,7(1):24-26.
110.干加华,潘璐,李鹏飞,韩东海.2009.苹果糖度近红外光谱分析模型的温度补偿.光谱学与光谱分析,29(6):1517-1520.
111.王京海.1996.食品包装膜渗透性及其影响因素的研究.食品科学,17(12):9-14.
112.王莉,张平,王世军.2001.果蔬减压保鲜理论与技术研究进展.保鲜与加工,1(6):3-6.
113.王丽宁,王成荣,王然,马刚,王云莉.2008.1-MCP处理对采后青花菜内源激素变化的影响.中国农学通报,24(10):291-295.
114.王敏,屠康,潘磊庆,梅为云.2010.1-MCP、纳米包装及二者结合对“次郎”甜柿采后品质的影响.食品科学,31(20):459-463.
115.王清章,刘怀超,孙颉.1997.莲藕贮藏中褐变度及多酚氧化酶活性的初步研究.中国蔬菜,(3):4-6.
116.干少敏,沈广宁,薛培生.2009.1-MCP与套袋对红富士苹果贮藏生理和品质的影响.山东农业科学,(10):43-45.
117.王伟,张有林.2008.减压处理对采后杏果实软化的生理控制效应.西北植物学报,28(1):131-135.
118.王文凤,孟庆瑞,张广燕,张平,梁隐泉,冯晨静,杨建民.2007.减压贮藏对安哥诺李果实生理生化特性的影响.中国食品学报,7(2):86-91.
119.王志华,姜云斌,王文辉,丁丹丹,申春苗,王荣华,佟伟,贾晓辉.2010.丰水梨自发气调及近冰点贮藏保鲜试验研究.食品科学,31(24):449-452.
120.王志华,王文辉,佟伟,张志云,贾小辉,姜修成.2008a.不同包装方式与1-MCP处理对苹果保鲜效果的影响.江苏农业科学, (1):192-194.
121.王志华,王文辉,.佟伟,丁丹丹,贾晓辉,张志云,王宝云,王宝亮,姜修成.2008b.1-MCP处理对锦丰梨保鲜效果及CO2敏感性影响研究.辽宁农业科学, (5):6-9.
122.魏建梅,朱向秋,袁军伟,刘长江.2008.1-MCP对采后嘎拉苹果果实淀粉及细胞壁成分变化的影响.华北农学报,23(6):121-124.
123.文建萍,陈兴苗,孙旭东,刘燕德.2007.可见近红外漫反射光谱法测定赣南脐橙的表面色泽.安 徽农业科学,35(36):11805-11806.
124.肖亚芳.2008.柿子的特性与柿饼的制作.农产品加工,(7):32-33.
125.肖志伟,张明渊,程虹波,涂洪强,张洵,石媛,王仁才.2010.喷钙与1-MCP处理对提高猕猴桃耐贮性的影响.湖南农业科学,(1):109-112.
126.熊小辉.2010.冰温技术在食品贮藏保鲜中的研究.广西轻工业,(1):11-12.
127.徐怀德,卢小勇,刘兴华,等.1994.柿子果酱加工中保鲜脱涩与防返涩技术.食品科学,15(3):21-24.
128.徐辉艳,孙晓东,张佩君,李憬琦,濮智颖,李琼.2009.红枣汁中总酚含量的福林法测定.食品研究与开发,30(3):126-128.
129.徐莉莉,韩育梅,许心青,杨维,孙吉.2008.1-甲基环丙烯(1-MCP)处理对河套蜜瓜在常温贮藏条件下品质的影响.内蒙古农业大学学报,29(2):97-101.
130.薛文通,李里特,赵凤敏.1997.桃的冰温贮藏研究.农业工程学报,13(4):216-220.
131.杨虎清,王允祥,庞林江,吴峰华,张民.2008.1-MCP对不同成熟度白凤桃冷害发生的影响.果树学报,25(1):111-114.
132.杨虎清,吴峰华,周存山,王允祥.2010.“东魁”杨梅在减压贮藏过程中品质及相关酶活性的变化.中国食品学报,10(1):161-166.
133.杨娟侠,鲁墨森.2008.1-MCP对金太阳杏采后生理和保鲜效果的影响.北方园艺,(1):235-237.
134.尹淑涛,薛文通,张惠.2008.冰温技术及其在食品保鲜上的应用.农产品加工学刊,(7):138-140.
135.应义斌,韩东海.2005.农产品无损检测技术.北京:化学工业出版社,35-37.
136.应义斌,刘燕德.2003.水果内部品质光特性无损检测研究及应用.浙江大学学报(农业与生命科学版),29(2):125-129.
137.虞佳佳,何勇,鲍一丹.2008.基于光谱技术的芒果糖度酸度无损检测方法研究.光谱学与光谱分析,28(12):2839-2842.
138.曾顺德,文泽富,谢永红.2005.冰温处理对白柚次生代谢产物及相关酶活性的影响.食品科学,26(11):250-252.
139.曾一凡,刘春生,孙旭东,陈兴苗,刘燕德.2008.可见/近红外光谱技术无损检测果实坚实度的研究.农业工程学报,24(5):250-252.
140.翟莉艳,张平,孟宪军,王莉.2005.减压贮藏对柿果实采后生理生化的影响.山西食品工业,(4):7-9.
141.张帆,任小林,王位涛,王小会.2008.采后1-MCP处理对富十苹果灰霉病的影响.西北农业学报,17(3):210-214.
142.张辉,王静,逢焕明,李学文.2009.1-MCP处理对李光杏采后生理代谢的影响.新疆农业科学,46(2):281-284.
143.张辉玲,胡位荣,庞学群,张昭其.2006a.冰温与SO2缓释剂对龙眼贮藏的影响.园艺学报,33(6):1325-1328.
144.张辉玲,刘明津,张昭其.2006b.果蔬采后冰温贮藏技术研究进展.热带作物学报,27(1):101-104
145.张家年,胡慰望,陈妙颜,干清章,谭军.1992.柿脱涩方法的研究.华中农业大学学报,11(3):280-283.
146.张明德.2008.柿现代生产技术.北京:北京科学技术出版社,1-2.
147.张宇,饶景萍,孙允静,李珊珊.2010.1-甲基环丙烯对甜柿贮藏冷害的控制作用.园艺学报,37(4):547-552.
148.赵斌,谢阳青.2003.真空包装技术在柿果脱涩保鲜中的应用.农产品加工,(4):39.
149.赵博,饶景萍.2005.柿果实采后胞壁多糖代谢及其降解酶活性的变化.西北植物学报,25(6):1199-1202.
150.赵杰文,张海东,刘木华.2005.利用近红外漫反射光谱技术进行苹果糖度无损检测的研究.农业工程学报,21(3):162-165.
151.赵亚霞,李丽萍,李学文,冯作山.2007.超声波结合真空包装对冷藏涩柿品质和生理变化的影响.食品科技,32(3):249-251.
152.郑巧林.2001.柿果真空包装脱涩和保鲜技术的研究.武汉:华中农业大学,10-11.
153.朱东兴,饶景萍,任小林,蒲鹏.2004a.柿果实1-甲基环丙烯处理对成熟软化的影响.同艺学报,31(1):87-89.
154.朱东兴,饶景萍,周存田,唐爱均.2004b.1-MCP对柿贮藏期间几种生理变化的影响.西北植物学报,24(6):1061-1065.
155. Akl A M, Eid A M, Ahmed F F.1994.Effect of postharvest application of calcium salts on shelf life and quality of lecont pear fruits during cold storage. Postharvest Symposium, Agadir, Morocco,1-20.
156. Alamar M C, Bobelyn E, Lammertyn J, Nicolai B M, Molto E.2007.Calibration transfer between NIR diode array and FT-NIR spectrophotometers for measuring soluble solids contents of apple. Postharvest Biology and Technology,45(1):38-45.
157. An D S, Park E, Lee D S.2009.Effect of hypobaric packaging on respiration and quality of strawberry and curled lettuce.Postharvest Biology and Technology,52(1):78-83.
158. Argiriou S, Nanos G D.2010.Preharvest avg and kaolin and postharvest 1-MCP application effects on advanced maturity peach quality and storage. Acta Hort. (ISHS),877:311-317.
159. Arnal L, Del Rio M A.2004.Effect of cold storage and removal astringency on quality of persimmon fruit (Diospyros kaki, L.) cv. Rojo Brillante.Food Science and Technology. International, 10(3):179-185.
160. Ben-Aire R, Guelfat-Reich S.1976.Softening effects of CO2 treatment for removal of astringency from stored persimmon fruits. Journal of the American Society for Horticultural Science,101(2), 179-181.
161. Blankenship S M, Dole J M.2003.1-Methylcyclopropene:a review.Postharvest Biology and Technology,28(1):1-25.
162. Blum J, Ayub R A.2009.Control of 'Quioto' persimmons ripening treated with 1-methylcyclopropene and stored at 20±4℃.Revista Ceres,56(2):119-123.
163. Cayuela J A.2008.Vis/NIR soluble solids prediction in intact oranges(Citrus sinensis L.) cv. Valencia late by reflectance. Postharvest Biology and Technology,47(1):75-80.
164. Cefola M, Amodio M, Rinaldi R, Vanadia S, Colelli G.2010.Exposure to 1-methylcyclopropene (1-MCP) delays the effects of ethylene on fresh-cut broccoli raab (Brassica rapa L.). Postharvest Biology and Technology,58(1):29-35.
165. Celikel F G, Ozelkok, S, Acican, T.2010.Effect of 1-MCP (1-methylcyclopropene) pretreatment on cold storage of 'granny smith' apples. Acta Hort. (ISHS),877:339-344.
166. Celikel F G., Acican T, Aslim A S.2010.Effect of 1-MCP (1-methylcyclopropene) pretreatment on cold storage of kiwifruit. Acta Hort. (ISHS),876:237-242.
167. Chin L H, Ali Z M, Lazan H.1999.Cell wall modifications, degrading enzymes and softening of carambola fruit during ripening. Journal of Experimental Botany,50(335):767-775.
168. Cozzolino D, Esler M B, Dambergs R G, Cynkar W U, Boehm D R, Francis I L, Glshen M.2004. Prediction of colour and pH in grapes using a diode array spectrophotometer (400-1100nm). Journal of Near Infrared Spectroscopy,12(2):105-111.
169. Desikan R, Cheung M K, Bright J, Henson D, Hancock J T, Neill S J.2004. ABA, hydrogen peroxide and nitric oxide signaling in stomatal guard cells.Joural of Experimental Botany,55(395):205-212
170. Kurahashi T, Matsumoto T, Ihamura H.2005.Ice-treated Japanese persimmon 'Saijo' harvested at various maturation stages. Journal of the Japanese Society for Horticultural Science,4(1):63-67.
171. Egea I, Flores F B, Martinez-Madrid M C, Romojaro F, Sanchez-Bel P.2010.1-Methylcyclopropene affects the antioxidant system of apricots(Prunus armeniaca L. cv. Bulida) during storage at low temperature. Journal of the Science of Food and Agriculture,90(4):549-555.
172. Fan X, Argenta L. MattheisJ P.2000.Inhibition of ethylene action by 1-methylcyclopro-pene prolongs storage life of apricots.Postharvest Biology and Technology,20(2):135-142.
173. Fawbush F, Nock J F, Watkins C B.2009.Antioxidant contents and activity of 1-methylcyclopropene (1-MCP)-treated 'Empire' apples in air and controlled atmosphere storage. Postharvest Biology and Technology,52(1):30-37.
174. Fischer R L, Bennett A B.1991. Role of cell wall hydrolases in fruit ripening. Annu Rev Plant Physiol Plant Mol Biol,42:675-703.
175. Fumuro M, Gamo H.2002.Effects of cold storage on CO2 treated Japanese persimmon(Diospyros kaki Tunb.) Hiratanenashi packed in poly ethylene bags of different thickness. J Japan Soc Hort Sci,71(2): 300-302.
176. Gamrasni D, Ben-Arie R, Goldway M.2010.1-Methylcyclopropene (1-MCP) application to Spadona pears at different stages of ripening to maximize fruit quality after storage.Postharvest Biology and Technology.58(2):104-112.
177. Gomez A H, He Y, Pereira A G.2006.Non-destructive measure of acidity, soluble solids and firmness of Satsuma mandarin using Vis/NlR-spectroscopy techniques. Journal of Food Engineeing, 77(2):313-319.
178. Greensill C V, Walsh K B.2002.Calibration transfer between miniature photodiode array-based spectrometers in the near infrared assessment of mandarin soluble solids content.Journal of Near Infrared Spectroscopy,10(1):27-35.
179. Guillen F, Castillo S, Zapata P J, Martinez-Romero D, Valero D.2008.Efficacy of 1-MCP treatment in tomato fruit: 1.Duration and concentration of 1-MCP treatment to gain an effective delay of postharvest ripening. Postharvest Biology Technology,43(1):23-27.
180. Harima S, Nakano R, Yamauchi S, Kitano Y, Inaba A, Tomita E.2002.Inhibition of fruit softening in forcing-cultured 'Tonewase' Japanese persimmon by packaging in perforated and nonperforated polyethylene bages. J Japan Soc Hort Sci,72(1):284-291.
181. Harima S, Nakano R, Yamauchi S, Kitano Y, Yamamoto Y, Inaba A, Kubo Y.2003. Extending shelf-life of astringent persimmon (Diospyros kaki Thunb.) fruit by 1-MCP. Postharvest Biology and Technology,29(3):319-324.
182. Jeong J, Huber D J, Sargent S A.1999.The potential benefits of 1-MCP for regulating the ripening and extending the storage life of avocados.HortScience,34(3):538-544.
183. Kader A A, Zagory D, Kerbel E L.1989.Modified atmosphere packaging of fruits and vegetables.Crit. Rev. Food Sci. Nutr.,28(1):1-30.
184. Kashimura Y, Hayama H, Ito A.2010.Infiltration of 1-methylcyclopropene under low pressure can reduce the treatment time required to maintain apple and Japanese pear quality during storage. Postharvest Biology and Technology,57(1):14-18.
185. Kawada K.1982.Use of polymeric films to extend postharvest life and improve marketability of fruits and vegetables-Unipack individually wrapped storage of tomatoes, oriental persimmons and grape fruit. In:Richardson D G, Meheriuk M, Controlled Atmosphere for Storage and Transport of Perishable Agricultural Commodities, (ED).Beaverton, OR.Timer Press,87.
186. Khan A S, Singh Z.2009.1-MCP application suppresses ethylene biosynthesis and retards fruit softening during cold storage of 'Tegan Blue' Japanese plum. Plant Science,176(4):539-544.
187. Lee M, Macmillan J D.1968.Mode of action of pectic enzymes.I. purification and certain properties of tomato pectinesterase.Biochemistry,7(11):4005-4010.
188. Lee Y S, Chung D S, Harte B R, Shin J M.2010. Effect of 1-methylcyclopropene (1-MCP) treatment on the quality characteristics and pigmentation of tomato fruit (Lycopersicon esculentum Mill.). Korean Journal of Horticultural Science & Technology,28(4):600-608.
189. Li X H, Zhang L, Wang X L, Li Y Y.2010.Effect of 1-MCP and CaCl2 on quality of Chinese jujube stored at low temperature. Advanced Materials Research,156:367-370.
190. Liu L, Rao J P, Chang X X, Yi S C.2009.Regulation of propylene and 1-methylcyclopropene on expressions of ACS and ACO genes in persimmon fruits. Agricultural Sciences in China, 8(10):1187-1192.
191.Lohani S, Trivedi P K, Nath P.2004.Changes in activities of cell wall hydrolases during ethylene-induced ripening in banana: effect of 1-MCP, ABA and IAA. Postharvest Biology and Technology,31(2):119-126.
192. Lu R, Guyer D E, Beaudry R M.2007.Determination of firmness and sugar content of apples using near-infrared diffuse reflectance. Journal of Texture Studies,31(6):615-630.
193. Marin A B, Colonna A E, Kudo K, Kupferman E M, Mattheis J P.2009.Measuring consumer response to 'Gala' apples treated with 1-methylcyclopropene (1-MCP). Postharvest Biology and Technology, 51(1):73-79.
194. Marin M A, Cano M P.1992.Patterns of peroxidase in ripening mango (Mangifera indica, L.) fruits.J.Food Sci.,57(3):690-692.
195.Matsuo T, Itoo S, Ben-Arie R.1991. A model experiment for elucidating the mechanism of astringency removal in persimmon fruit using respiration inhibitors. J.Japan. Soc. Hort. Sci., 60(2):437-442.
196. Matsuo T, Itoo S.1982.A model experiment for de-astringency of persimmon fruit with high carbon dioxide treatment:in vitro gelation of kaki-tannin by reacting with acetaldehycle. Agric Biol Chen, 46(3):683-689.
197. McGlone V A, Jordan R B, Martinsen P J.2002.Vis/NIR estimation at harvest of pre- and post-storage quality indices for 'Royal Gala' apple. Postharvest Biology and Technology,25(2):135-144.
198. Nieolai B M, Verlinden B E, Desmet M, Saevels S, Saeys W, Theron K, Cubeddu R, Pifferi A, Torricelli A.2008.Time-resolved and continuous wave NIR reflectance spectroscopy to predict soluble solids content and firmness of pear. Postharvest Biology and Technology,47(1):68-74.
199. Ortiz A, Graell J, Lopez M L, Echeverria G, Lara 1.2010.Volatile ester-synthesising capacity in 'Tardibelle' peach fruit in response to controlled atmosphere and 1-MCP treatment. Food Chemistry, 123(3):698-704.
200. Oz A T.2011.Combined effects of 1-methyl cyclopropene (1-MCP) and modified atmosphere packaging (MAP) on different ripening stages of persimmon fruit during storage. African Journal of Biotechnology,10(5):807-814.
201. Peirs A, Lammertyn J, Ooms K, Nicolai B M.2001.Prediction of the optimal picking date of different apple cultivars by means of VIS/NIR-spectroscopy. Postharvest Biology and Technology, 21(2):189-199.
202. Peirs A, Schenk A, Nicolai B M.2005.Effect of natural variability among apples on the accuracy of VIS/NIR calibration models for optimal harvest date predictions. Postharvest Biology and Technology, 35(1):1-13.
203. Pesis E, Ben-Arie R.1984.Involvement of acetaldehyde and ethanol accumulation during induced deastringency of persimmon fruits. Journal of Food Science,49(3):896-899.
204. Plainsirichail M, Trinok U, David W T.2010.1-methylcyclopropene (1-MCP) reduces water loss and extends shelf life of fruits of Rose apple (Syzygium jambos Alston) cv. Tabtim Chan. Fruits, 65(3):133-140.
205. Ramin A A.2008. Shelf-life extension of ripe non-astringent persimmon fruit using 1-MCP. Asian Journal of Plant Sciences,7(2):218-222.
206. Rangel M, Valenzuela E, Cepeda S, Barajas S, Torres V, Enciso O.2009.Effect of 1-methylcyclopropene (1-MCP) and an edible coating on enzyme activity and postharvest quality of mango'Ataulfo'. Revista Fitotecnia Mexicana,32(1):53-60.
207. Reich G, Arie B, Metal N.1975.Effect of CO2during and following storage on removal of astringency and keeping quality of Triumph persimmons.J Japan Soc Hort Sci,100:95-98.
208. Redgwell R J, MacRae E, Hallett I, Fischer M, Perry J, Harker R.1997.In vivo and in vitro swelling of cell walls during fruit ripening. Planta,203(2):162-173.
209. Saftner R, Luo Y, McEvoy J, Abbott J A, Vinyard B.2007.Quality characteristics of fresh-cut watermelon slices from non-treated and 1-MCP-and/or ethylene-treated whole fruit. Postharvest Biology and Technology,44(1):71-79.
210. Salvador A. Cuquerella J, Martinez-Javega J M, Monterde A, Navarro P.2004.1-MCP preserves the firmness of stored persimmon'Rojo Brillante'. Journal of Food Science,69(2):69-73.
211. Schaare P N, Fraser D G.2000.Comparison of reflectance, interactance and transmission modes of visible-near infrared spectroscopy for measuring internal properties of kiwifruit (Actinidia chinensis). Postharvest Biology and Technology,20:175-184.
212. Serek M, Sisler E C, Reid M S.1994.Novel gaseous ethylene binding inhibitor prevents ethylene effects in potted flowering plants. J. Amer. Soc. Hort. Sci.,119(6):1230-1233.
213. Serrano M, Martinez-Romero D, Guillen F, Castillo S, Valero D.2006.Maintenance of broccoli quality and functional properties during cold storage as affected by modified atmosphere packaging. Postharvest Biology and Technology,39(1):61-68.
214. Siegrist J P, Cotter P Y.2009.The effect of 1-MCP on Mairac(?) apples under different storage temperatures and under ULO atmosphere.Revue Suisse de Viticulture, Arboriculture et Horticulture, 41(6):337-343.
215. Sisler E C, Serek M.1997.Inhibitor of ethylene responses in plants at the receptor level:recent developments.Physiology Plant,100(3):577-582.
216. Seymour D B, Gross K C.1996.Cell wall disassembly and fruit softening. Postharvest News Inform, 7(3):45-52.
217. Taira S, Itamura H, Abe K, Watanabe S.1989.Comparison of the characteristics of removal of astringency in two Japanese persimmon cultivars Denkuro and Hiratanenashi. J Japan Soc Hort Sci, 58:319-335.
218. Taira S, Kubo Y. Sugiura A, Tomana T.1987.Comparative studies of postharvest fruit quality and storage quality in Japanese persimmon (Diospyros kaki L. cv.'Hiratanenashi') in relation to different methods for removal of astringency. Journal of the Japanese Society for Horticultural Science,56(2): 215-221.
219. Taira S, Ono M, Matsumoto N.1997.Reduction of persimmon astringency by complex formation between pectin and tannins. Postharvest Biology and Technology,12(3):265-271.
220. Tamura F, Tanabe K, Itai A, Hasegawa M.1999.Characteristics of acetaldehyde accumulation and removal of astringency with ethanol and carbon dioxide treatments in 'Saijo' persimmon Fruit. Journal of the Japanese Society for Horticultural Science,68(6):1178-1183.
221.Tatsuki M, Endo A, Ohkawa H.2007.Influence of time from harvest to 1-MCP treatment on apple fruit quality and expression of genes for ethylene biosynthesis enxymes and ethylene receptor. Postharvest Bioltechnol,43(1):28-35.
222. Villalobos Acuna M G. Biasi W V, Mitcham E J, Holcroft D.2011.Fruit temperature and ethylene modulate 1-MCP responsein 'Bartlett' pears. Postharvest Biology and Technology,60(1):17-23.
223.Yamada M, Taira S, Ohtsuki M, Sato A, Iwanami H, Yakushiji H, Wang R, Yang Y, Li G C.2002.Varietal differences in the ease of astringency removal by carbon dioxide gas and ethanol vapor treatments among Oriental astringent persimmons of Japanese and Chinese origin. Scientia Horticulturae,94(1):63-72.
224. Yuan G F, Sun B, Yuan J, Wang Q M.2010.Effect of 1-methylcyclopropene on shelf life, visual quality, antioxidant enzymes and health-promoting compounds in broccoli florets.Food Chemistry, 118(3):774-781.
225. Zhang H X, Bi Y, Li Y C, Liu J, Gao X H, Zheng X Y.2010.Effect of 1-MCP on postharvest yellowing and quality of Asia pear (pyrus bretchneideri rehd.'early crisp') during ambient storage. Acta Hort.(ISHS).876:243-249.
226. Zhang M J. Jiang Y M, Jiang W B, Liu X J.2006.Regulation of ethylene synthesis of harvested banana fruit by 1-methylcyclopropene.Food Technology and Biotechnology,44(1):111-115.
227. Zude M, Herold B. Roger J M, Bellon-Maurel V, Landahl S.2006. Non-destructive tests on the prediction of apple fruit flesh firmness and soluble solids content on tree and in shelf life. Journal of Food Engineering.77(2):254-260.
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