Fe-EDDHA对矫治秦美猕猴桃叶片失绿和营养元素组成的影响

在陕西石灰性土壤秦美猕猴桃果园施用不同剂量叶绿灵 (Fe- EDDHA) ,结果表明 ,萌芽期株施 45 g叶绿灵对矫治秦美猕猴桃叶片失绿黄化效果显著 ,可一直维持到当年落叶。同黄化对照植株相比 ,叶片叶绿素含量增加 1 82 .5 % ,活性铁含量提高 5 3 .2 % ,果实品质得到明显改善。施用叶绿灵还改善了叶片营养元素的含量     

乙酰水杨酸和乙烯处理对猕猴桃果实后熟软化的影响

以猕猴桃（Actinidia deliciosa(A.Chev.)C.F.Liang et A.R.Ferguson cv.Bruno)果实为试材,研究乙酰水杨酸（ASA）与乙烯处理对果实内源水杨酸（SA）含量变化以及后熟软化相关因子的影响,探讨SA在果实成熟衰老进程的作用。研究结果表明：果实后熟软化进程中,内源SA水平呈下降变化,组织中SA水平与果实硬度变化呈极显著正相关关系（r=0.9694),ASA处理可显著地维持组织中较高的SA水平,抑制脂氧合酶（LOX）和丙二烯氧合酶（AOS）活性增加,减低O2^-生成速率,维持细胞膜稳定性,进而抑制了乙烯生物合成或推迟乙烯跃变的到来,延缓了果实后熟软化进程,这些效应主要表现在乙烯跃变之前或乙烯跃变前期;相反,外源乙烯处理则显著降低果实组织中内源SA水平,促进LOX和AOS活性的增加,促使O2^-积累,增加了细胞膜透性,促使乙烯跃变的提前到来,加速了果实的后熟软化。推测组织中的内源SA水平与细胞膜脂过氧化作用密切相关,外源ASA可能作为一种O2^-等自由基的清除剂或是细胞膜稳定剂在组织成熟衰老过程中起作用。     

乙酰水杨酸处理对猕猴桃果实成熟衰老的影响及其作用机理

以不同后熟软化阶段猕猴桃果肉组织圆片为材料 ,在 2 0℃下用 1.0mmol L(pH 3.5 )的乙酰水杨酸(ASP)分别处理 4、12和 2 4h后 ,分析其对果实成熟衰老相关因子的影响。结果表明 ,随着果实成熟衰老 ,内源游离SA下降 ,LOX活性增加 ,超氧自由基 (O- ·2 )生成速率增加 ,乙烯释放量加大 ;ASP处理促使组织内源SA水平的增加 ,降低了O- ·2 生成速率 ,抑制了LOX、ACC合成酶和ACC氧化酶的活性以及乙烯的生成。推测ASP可能作为O- ·2 等自由基清除剂 ,通过负反馈调控LOX途径 ,延缓果实的成熟衰老     

Isolation and identification of pathogenic fungi causing postharvest fruit rot of kiwifruit (Actinidia chinensis) in China

Kiwifruit is a very important commercial crop in China, which is the largest producer of the fruit in the world. The rapid expansion of areas of kiwifruit cultivation has resulted in the spread of postharvest rot diseases. To clarify the pathogens causing kiwifruit postharvest rots in China, 76 pure strains were isolated from 138 rotten fruits during the shelf‐life period, with fruit collected from the 11 main regions of kiwifruit cultivation (Shaanxi, Sichuan, Henan, Guizhou, Hubei, Anhui, Jiangxi, Hunan, Fujian, Zhejiang and Jiangsu provinces) during 2014–2015. By examining the morphological and microscopic characteristics together with the results of pathogenicity testing and ITS (internal transcribed spacer) sequencing, four species were identified as the main pathogens causing kiwifruit postharvest rots in China. They were Phomopsis sp., Botryosphaeria dothidea, Alternaria alternata and Pestalotiopsis microspora, with identification rates of 52.6%, 23.7%, 13.2% and 10.5%, respectively. All isolates inoculated on wounded fruit were pathogenic but non‐pathogenic when peels were unwounded except B. dothidea. These findings have important implications for resistance breeding and control of kiwifruit postharvest rots in China.     

Actinidia arguta: volatile compounds in fruit and flowers

More than 240 compounds were detected when the volatile components of the flowers and the fruit from several Actinidia arguta genotypes were investigated. Around 60-70 different compounds were extracted from individual tissues of each genotype. Two different methods of volatile sampling (headspace and solvent) favoured different classes of compounds, dependent upon their volatilities and solubilities in the flower or fruit matrices. The compounds extracted from flowers largely comprised linalool derivatives including the lilac aldehydes (12a-d) and alcohols (13a-d), 2,6-dimethyl-6-hydroxyocta-2,7-dienal (8), 8-hydroxylinalool (9), sesquiterpenes, and benzene compounds that are presumed metabolites of phenylalanine and tyrosine. Extracts of fruit samples contained some monoterpenes, but were dominated by esters such as ethyl butanoate, hexanoate, 2-methylbutanoate and 2-methylpropanoate, and by the aldehydes hexanal and hex-E2-enal. A number of unidentified compounds were also detected, including 8 from flowers that are so closely related that they are either isomers of one compound or two or more closely related compounds. This is the first report of the presence of a range of linalool derivatives in Actinidia.     

Polygalacturonase gene expression in kiwifruit: relationship to fruit softening and ethylene production

In kiwifruit, much of the softening process occurs prior to the respiratory climacteric and production of ethylene. This fruit therefore represents an excellent model system for dissecting the process of softening in the absence of endogenous ethylene production. We have characterized the expression of three polygalacturonase (PG) cDNA clones (CkPGA, B and C) isolated from fruit of Actinidia chinensis. Expression of CkPGA and B was detected by northern analysis only in fruit producing endogenous ethylene, and by RT-PCR in other tissues including flower buds, petals at anthesis, and senescent petals. CkPGA promoter fragments of 1296, 860 and 467 bp fused to the -glucuronidase (uidA) reporter gene directed fruit-specific gene expression during the climacteric in transgenic tomato. CkPGC gene expression was observed in softening fruit, and reached maximum levels (50-fold higher than for CkPGA and B) as fruit passed through the climacteric. However, expression of this gene was also readily detected during fruit development and in fruit harvested prior to the onset of softening. Using RT-PCR, expression of CkPGC was also detected at low levels in root tips and in senescent petals. These results suggest that PG expression is required not only during periods of cell wall degeneration, but also during periods of cell wall turnover and expansion.     

温度及赤霉素对两性花猕猴桃‘龙山红’种子萌发的影响

‘龙山红’是从四川省龙门山南段的野生彩色猕猴桃中筛选出的一个两性花株系,也是国内首次发现雌雄同体且充分发育的两性花彩色猕猴桃株系。本文首次报道温度（低温层积,变温）和赤霉素处理对两性花猕猴桃新株系‘龙山红’种子萌发的影响。通过低温层积、变温、GA3及其组合处理后的试验表明,低温层积、变温、GA3都能有效打破休眠,促进萌发,但物理温度处理法对种子萌发的效果更好。     

Independent control of organogenesis and shoot tip abortion are key factors to developmental plasticity in kiwifruit (Actinidia)

BACKGROUND AND AIMS: In kiwifruit (Actinidia), the number of nodes per shoot is highly variable and is influenced by genotype and environmental conditions. To understand this developmental plasticity, three key processes were studied: organogenesis by the shoot apical meristem during shoot growth; expansion of phytomers; and shoot tip abortion. METHODS: Studies were made of organogenesis and shoot tip abortion using light and scanning electron microscopy. The effect of temperature on shoot growth cessation was investigated using temperature indices over the budbreak period, and patterns of shoot tip abortion were quantified using stochastic modelling. KEY RESULTS: All growing buds began organogenesis before budbreak. During shoot development, the number of phytomers initiated by the shoot apical meristem is correlated with the number of expanding phytomers and the mean internode length. Shoot tip abortion is preceded by growth cessation and is not brought about by the death of the shoot apical meristem, but occurs by tissue necrosis in the sub-apical zone. For most genotypes studied, the probability of shoot tip abortion is higher during expansion of the preformed part of the shoot. Lower temperatures during early growth result in a higher probability of shoot tip abortion. CONCLUSIONS: Organogenesis and shoot tip abortion are controlled independently. All buds have the potential to become long shoots. Conditions that increase early growth rate postpone shoot tip abortion.     

猕猴桃实生苗再生体系的建立

以成熟饱满的美味猕猴桃种子发芽获得实生苗,分别以实生苗的茎段、叶柄和叶片为材料建立了再生体系。结果表明:种子以2.5mg/L的赤霉素(GA3)处理8h较适合;以培养基发芽较为适合;茎段、叶柄和叶片的愈伤组织的诱导率均为100%,且茎段、叶柄比叶片容易脱分化,但叶片的平均出苗率最高。再生苗在移栽5d后,开始长出新叶,10d后就能完全适应外界环境。