The role of the auxin-response genes MdGH3.1 and MdSAUR36 in bitter pit formation in apple

Apples often exhibit bitter pits in response to metabolic disorders during ripening and storage;however, the mechanisms underlying the bitter pit(BP) development remain unclear. Here, metabolome and transcriptome analyses were performed to investigate BP pulp of 'Fuji'. Two auxin-response genes, MdGH3.1 and MdSAUR36, were screened. Their expression as well as the auxin content in BP pulp were found to be higher than those in healthy pulp(P < 0.01). In the field, excess CO(NH2)2increased the incidence of BP. Moreover, the auxin content and MdGH3.1 expression increased in apples after nitrogen fertilization. On Day 30 before harvest, the two genes were transiently transferred to the fruit, and 20.69% and 23.21% of BP fruits were harvested. After 10 μmol·L-1auxin was infiltrated at low pressure into postharvest fruit, the increase in MdGH3.1 expression occurred earlier than that in MdSAUR36. MdGH3.1 increased the expression of MdSAUR36, but MdSAUR36 did not increase expression of MdGH3.1. Therefore, we suggest that MdGH3.1 acts upstream of MdSAUR36 during BP formation and that these genes induce BP formation by regulating auxin and phenylpropanoid biosynthesis.

Distribution of Calcium in Bagged Apple Fruit and Relationship between Antioxidant Enzyme Activity and Bitter Pit

[Objective]The aim was to study the distribution of Ca in bagged apple fruit and the relationship between antioxidant enzyme activity and bitter pit disease,which will provide a basis for resolving Ca metabolism disorder in apple cultivation. [Method]With Fuji Apple as the tested material,the changes of Ca2＋ content and antioxidant enzyme activity in different parts of apple fruit after picking bags and storage period were determined. [Result]The results showed that Ca contents in the light surface of fruits were higher than that in the backlight surface. The Ca contents of stalk cavity were higher than that of calyx-end. The activities of SOD,POD,CAT and APX in the light surface of fruits were higher than that in the backlight surface. The activities of SOD,POD,CAT and APX of stalk cavity were higher than that of calyx-end. The contents of MDA in the light surface of fruits were lower than that in the backlight surface. The contents of MDA of stalk cavity were lower than that of calyx-end. [Conclusion]The incidence rate of bitter pit in the light surface of fruits were lower than that in the backlight surface,and the incidence rate of bitter pit of stalk cavity were lower than that of calyx-end.

Synergistic Influence of Pre-Harvest Calcium Sprays and Postharvest Hot Water Treatment on Fruit Firmness, Decay, Bitter Pit Incidence and Postharvest Quality of Royal Delicious Apples (<i>Malus x domestica</i>Borkh)

Experiments were conducted to observe the effect of pre-harvest calcium (Ca) applied as calcium chloride (1% W/V) and postharvest hot water treatment (HWT) on “Royal Delicious” apples. For this, apples were divided in 4 lots viz., untreated (neither Ca nor HWT), Ca alone (pre-harvest 3 sprays of CaCl2 (1.0% w/v) in the orchard), HWT (42℃ for 2 h). Apples of all four lots were stored in cold storage maintained at 0℃ ± 1℃ and 90% - 95% relative humidity for 6 months. After storage, fruits were removed to ambient conditions for 5 days, and then observations on decay area and incidence, bitter pit incidence, fruit Ca content, lipoxygenase (LOX) and antioxidant (AOX) activity, fruit firmness and fruit quality parameters were recorded. After 6 months in cold storage plus 5 day at 22℃ ± 2℃ and 70% + 4% RH, apples, which received Ca as pre-harvest spray or those which received postharvest hot water treatment or Ca + HWT had significantly lesser decay area (decay lesions) caused by Penicillium expansum or Botrytis cinerea than untreated ones (control). Ca + HWT treatment was significantly more effective on B. cinerea than P. expansum. Untreated apples exhibited higher incidence of bitter pit (18.2%) than those treated with Ca or HWT or both. Fruit Ca content (2.92% DM) were significantly lower and conversely the LOX activity (6.9 μmoles min–1×g–1FW) was higher in untreated apples. Similarly, total phenolics and AOX activity were also lower in the untreated apples than Ca or HWT treated. HWT or Ca treated apples have beneficial effects on fruit firmness, peel colour and quality parameters like TSS and ascorbic acid content. Thus, it is concluded that pre-harvest sprays of calcium chloride with postharvest HWT is highly useful for “Royal Delicious” for reducing decay loss, maintaining firmness, high levels of antioxidants and fruit quality.

苹果MdCAXs家族分析及钙转运功能的初步分析

苦痘病(BP)是一种苹果果实钙缺乏相关的生理性病害,然而关于苦痘病的发病机制尚不明确。目前发现,Ca^(2+)/H^(+)反向转运体(CAXs)可能与植物钙缺乏症的发生相关。对12个苹果MdCAXs基因家族成员的蛋白理化性质及蛋白序列进行了分析,同时对水溶性元素含量与钙转运相关基因表达量之间的相关性进行了分析,并鉴定了MdCAX2、MdCAX5和MdCAX11及去掉NRR的sMdCAX2、sMdCAX5和sMdCAX11的钙转运功能,发现MdCAX5和sMdCAX11这2个转运蛋白可能具备转运Ca2+的功能,进而参与调控苦痘病的发生与发展。

苹果苦痘病发生规律及防治研究进展

钙是苹果生长发育过程中必需的矿质元素之一,缺钙会导致细胞代谢失调,引发苹果苦痘病等生理病害,严重影响果实品质。苹果主要通过根系在土壤中吸收钙,根系吸收的钙在蒸腾拉力的带动下运往地上部,而蒸腾作用弱,导致苹果果实易发生生理缺钙。果实中的钙含量与树种、砧木类型等树体因子和施肥、修剪等农技措施密切相关。综述了苹果苦痘病与钙之间的关系、苹果钙吸收转运、苹果缺钙机制和苹果苦痘病防治的研究进展,以期为提高果树钙吸收能力,增加果实钙含量预防苹果苦痘病,促进果实生长及改善采后贮藏品质,减轻果农负担,促进苹果产业健康可持续发展提供理论依据及指导方法。

‘秦脆’苹果苦痘病发生规律研究

以新品种‘秦脆’为试验试材,田间调研苦痘病发病情况与相关农艺性状,运用皮尔逊相关性分析、主成分分析、回归分析和通径分析的多元分析法,对‘秦脆’树高、主干径粗、营养枝强弱及数量、秋梢枝长短及数量、挂果量多少、果实大小等相关农艺性状和发病情况进行关联分析。结果表明:苦痘病始发于7月末8月初,不同果园、不同树龄苦痘病发病率相差较大;相关性分析表明,发病率与强营养枝(0.54)、长秋梢数(0.43)呈极显著正相关,与挂果量(-0.43)呈极显著负相关;多元回归方程表明,强营养枝、挂果量、长秋梢是决定苦痘病发病率的主要因子,它们决定了发病率的79.1%;通径分析表明,强营养枝数、长秋梢、果实大小是影响苦痘病发病率的直接因素,挂果量、树高、中营养枝、弱营养枝、短秋梢等性状通过影响强营养枝间接调控发病率。

喷施5-氨基乙酰丙酸与调环酸钙对‘秦脆’苹果苦痘病的预防效果

【目的】‘秦脆’是‘蜜脆’的杂交后代,生产上经常观察到苦痘病发生,给生产带来影响,病害严重时会使果品的商品率下降,进而造成较大的经济损失,为此开展该试验探究预防苦痘病适宜的植物生长调节剂。【方法】对‘秦脆’苹果喷施不同浓度的5-氨基乙酰丙酸(5-ALA)与250 mg/L调环酸钙进行试验,研究分析对秦脆苹果苦痘病的预防效果。【结果】试验结果发现5-ALA与调环酸钙配合喷施对秦脆苹果苦痘病发生有一定的预防控制效果。喷施4次100 mg/L的5-ALA与7月下旬喷施1次250 mg/L调环酸钙相结合处理后发病率为5.5%,与对照相比,发病率降低了56%。且喷施100 mg/L的5-ALA能够提高果树光合作用与蒸腾作用。【结论】综合分析表明,5-氨基乙酰丙酸与调环酸钙配合喷施对‘秦脆’苹果苦痘病有一定的预防效果,建议在生产上示范。

‘乔纳金’苹果采后1-MCP处理对常温贮藏效果的影响

试验结果表明 ,1 MCP (1-甲基环丙烯 )处理可以明显降低‘乔纳金’苹果果实的呼吸强度 ,延迟呼吸高峰的出现 ,明显减缓硬度和酸度的下降 ,减少叶绿素的分解 ,但低浓度的 1

苹果苦痘病的发生与钙、镁离子及抗氧化酶活性的关系

苹果苦痘病果实钙离子含量明显低于正常果实 ,镁离子含量只有果肉外部显著高于正常果实。病果的超氧化物歧化酶 (SOD)、抗坏血酸过氧化物酶 (APX)、过氧化氢酶(CAT)和愈创木酚过氧化物酶 (POX)等活性明显低于正常果实。用CaCl2 溶液真空渗透处理苹果果实明显提高APX活性 ,降低正常果实酶活性 ,表明钙离子调节抗氧化物酶活性。苦痘病果实缺钙富镁导致酶活性下降 ,病果丙二醛 (MDA)含量和细胞膜透性明显高于正常果实 。

钙素营养与套袋苹果苦痘病的关系

为了探讨苹果套袋后苦痘病加重的原因,以富士苹果为试材,对果实发育过程中钙、氮含量的变化规律,果实幼果期和成熟期钙总量,套袋后果实微环境湿度变化及不同有机质果园苦痘病发生率进行了测定。结果表明,未套袋苹果果实在幼果期吸收钙量占成熟果实总钙量30%左右,后期占70%左右,套袋影响了果实对钙的吸收;套袋使袋内湿度增加,果实表面蒸腾作用降低,使果实对钙的吸收受到影响;同时套袋果氮含量一直高于未套袋果,N/Ca增大,促成了苦痘病的发生。增加果园有机质含量,可以改善根际钙离子供应,降低苦痘病的发生。

果实、叶片及土壤主要矿质元素与‘长富2’苹果苦痘病的发生研究

为探明主要矿质元素含量与苹果苦痘病发生的关系,研究了‘长富2'苹果果实、叶片及土壤N、P、K、Ca、Mg含量与苦痘病发生的相关性。结果表明:苦痘病的发生与果实N含量及N/Ca、P/Ca和K/Ca等值呈极显著正相关;与果实Ca、Mg含量及Ca/Mg值呈极显著负相关。苦痘病的发生与叶片N、P、K含量及N/Ca、P/Ca、K/Ca、Ca/Mg值呈极显著正相关;与Ca、Mg含量呈极显著负相关。苦痘病的发生与土壤碱解N、全P、速效P、速效K含量及碱解N/交换性Ca、碱解N/交换性Mg等呈极显著正相关;与土壤交换性Ca、交换性Mg含量及碱解N/速效P、碱解N/速效K等呈极显著负相关。表明苹果苦痘病的发生与果实、叶片以及土壤的Ca的含量有密切的相关性,Ca含量较低或N、P、K含量较高,以及较高的N/Ca、P/Ca、K/Ca比和较低的Ca/Mg比,会导致并加重苦痘病的发生。

套袋苹果果实中钙素分布及抗氧化酶活性与苦痘病关系的研究

[目的]研究套袋苹果果实中钙素分布及抗氧化酶活性与苦痘病的关系,为解决苹果栽培中钙的生理代谢障碍提供依据。[方法]以红富士苹果为试验材料,测定摘袋后和储藏期内果实不同部位Ca2+含量变化和抗氧化酶的活性。[结果]果实照光面Ca2+含量高于背光面,果实梗洼处Ca2+含量高于萼洼处;果实照光面SOD、POD、CAT、APX活性高于背光面,梗洼处SOD、POD、CAT、APX活性高于萼洼处;果实照光面MDA含量低于背光面,梗洼处MDA含量低于萼洼处。[结论]果实照光面苦痘病发病率低于背光面,果实梗洼处苦痘病发病率低于萼洼处。

钙镁肥配施对苹果树叶片和果实营养元素含量及病果率影响

对大连瓦房店地区10 a树龄红富士苹果树进行不同的钙、镁肥的施肥处理,在喷与不喷硫酸镁溶液的基础上分别进行硝酸钙土施和喷施以及氨基酸钙喷施,探讨苹果叶片和果实营养元素含量及苹果"苦痘病"病果率状况。结果表明:钙的不同施肥方式和不同钙镁组合处理对苹果树各器官营养元素以及病果率影响差异很大。单独施钙和钙镁配合施用均不同程度提高了叶片中N、P、K、Ca、Mg的含量,而单施镁会降低营养枝叶片中Ca含量。Ca、Mg单施和配施均显著提高了果实中的P含量;Ca对苹果果实N吸收累积具有抑制作用;而Mg则有促进作用。与CK比较,单施Mg处理使得病果率提高了9.5%;单施Ca处理较Ca、Mg配施防病效果更明显。各施钙处理均显著降低了苹果"苦痘病"发病率;不施Ca、Mg处理病果率为4.2%,喷施氨基酸钙、硝酸钙和土施硝酸钙处理病果率分别为0.9%、1.4%、1.2%,病果率依次降低了79%、67%、71%;在施钙的基础上加施硫酸镁后病果率分别为1.9%、2.4%、2.2%,病果率依次降低55%4、3%、48%。钙肥处理以氨基酸钙肥喷施效果最好,而镁肥会加重苹果"苦痘病"的发病率。

秋锦苹果苦痘病与果实矿质元素含量和品质相关性的研究

以套袋秋锦苹果为试材,测定了苦痘病果与健果不同部位矿质含量及可溶性固形物的含量。结果表明:矿质元素含量果皮>果肉,苦痘病果实的Ca含量低于健果,果皮中尤为明显;苦痘病果N、P、K、B含量及N/Ca、K/Ca、B/Ca、P/Ca均高于健果,N/K、N/P和K/P差异不明显;果皮不着色面Ca含量均低于着色面,而N含量均高于着色面。苦痘病果可溶性固形物含量显著高于健果。果皮各矿质元素之间以及各矿质元素与SSC间存在较密切的相关性。

‘斗南’苹果苦痘病与果实Ca、Mg、K含量的关系

苦痘病是苹果栽培中一种常见的果实生理失调症,在‘斗南'苹果品种上呈高发态势。本试验以8个果园‘斗南'苹果为试材,采用原子吸收分光光度法分别测定正常和发病果的果皮、果肉中水溶性及总的Ca、Mg、K含量,以探索苦痘病与Ca、Mg、K含量的关系。结果表明:苦痘病果的果皮、果肉中水溶性及总的Ca含量均普遍低于正常果,果皮水溶性Ca含量差异显著;苦痘病果果皮、果肉中水溶性及总的Mg含量均普遍高于正常果,但差异均不显著;苦痘病果果皮、果肉中水溶性及总的K含量普遍高于正常果,且果皮总的K含量有显著差异。苦痘病果果皮、果肉中水溶性Ca/Mg、Ca/K均极显著低于正常果。主成分分析结果表明,果皮、果肉水溶性Ca含量,果皮总的K含量,果肉水溶性Mg、K含量与苦痘病发生密切相关。

基于CT图像的苹果苦痘病与磕碰伤识别

对苦痘病进行持续、准确、量化的无损检测,以及育种专家对新品种苹果的抗苦痘病表型研究,都需要苦痘病准确识别技术的支持。针对磕碰伤对苦痘病识别产生干扰,降低了识别准确率问题,基于苹果CT图像,提出了一种苹果苦痘病和磕碰伤识别方法。首先,采用最大类间方差法、区域标记、中值滤波等方法,对337帧苹果CT图像进行图像分割和伤病区域定位;其次,对伤病区域进行特征提取,提取其形状特征、纹理特征和位置特征共18种特征信息;然后,利用多元逐步回归和类距离可分离性判据2种方法分别选取特征信息,将2种方法选出的相同特征作为本文的选用特征信息;最后,分别使用遗传算法优化的支持向量机和默认参数的支持向量机,对苹果苦痘病和磕碰伤进行识别。识别结果表明,经过遗传算法优化的支持向量机的总体识别准确率高于93%,默认参数的支持向量机算法的总体识别准确率高于84%。遗传算法优化后的支持向量机的识别准确率明显优于默认参数的支持向量机的识别准确率。

苹果苦痘病与果实内矿质养分平衡状况的相关性分析

对大连瓦房店地区苹果苦痘病病害程度不同的红富士苹果果实进行了氮、磷、钾、钙、镁、铁、锰、铜、锌、硼、钼含量的测定。结果表明:苦痘病的病害程度与苹果果实内的含氮量呈极显著正相关关系,即苦痘病越严重,果实内的含氮量越高;苦痘病的病害程度与苹果果实内的氮/钙比呈极显著正相关关系,即果实内氮含量越高,钙含量越低,苦痘病越严重;病害程度与苹果果实内的钙/(钾+镁)比呈极显著负相关关系;病害程度与果实内的铜含量呈极显著正相关关系;病害程度与果实内的磷、钾含量无显著的相关关系。试验得出:苹果果实内氮含量过高,是导致苦痘病发生的重要因素。

套袋苹果果实中钙素微分布与“苦痘病”的关系

为了从细胞学角度深入认识钙离子含量与套袋苹果果实"苦痘病"发生的关系。此试验以套袋红富士苹果为试材,研究了苹果摘袋后期,苹果果实不同部位细胞内的钙离子含量及相同部位不同的发病区域细胞内钙离子含量与套袋苹果果实"苦痘病"的关系。结果表明:苹果照光面的果肉细胞钙离子含量高于背光面,苹果梗洼处的果肉细胞钙离子含量高于萼洼处。照光面、背光面、梗洼处和萼洼处的发病部位果肉细胞的钙离子含量均明显低于不发病部位。由此可见:果实照光面的苦痘病发病率低于背光面,果实梗洼处的苦痘病发病率低于萼洼处。

苹果苦痘病对果实可溶性固形物含量的影响

为研究苹果苦痘病对果实可溶性固形物含量的影响,笔者以短枝富士苹果为试材,测定了健康果实与发病果实的可溶性固形物含量。结果显示,发病果实的可溶性固形物含量显著高于健康果实,而不同病级的果实间其可溶性固形物含量差异不明显,可能原因是,发病后果实干缩失水,从而导致其可溶性固形物含量提高,但发病严重程度对其含量变化影响不大。本试验结果可为研究苹果苦痘病对其他风味评价指标的影响奠定基础。

调环酸钙协同硝酸钙控制采后富士苹果苦痘病

为了控制苹果采后苦痘病的发生,本实验以富士苹果为试材,在水压条件下进行调环酸钙、硝酸钙及二者结合浸钙处理,研究了不同处理间苦痘病的发生率、总钙和不同形态钙含量、抗氧化酶活力等的差异,探讨调环酸钙协同硝酸钙控制苦痘病的可能机理。结果表明:单独调环酸钙处理不能减轻苹果苦痘病的发生,而硝酸钙、调环酸钙/硝酸钙协同处理后,富士苹果贮藏40 d,苦痘病发病率分别比对照低15.62%和50.00%。进一步研究表明协同处理可显著提高苹果外皮层中总钙、水溶性钙含量,在贮藏后期降低外皮层的磷酸钙、草酸钙非生理活性钙含量。此外,调环酸钙协同硝酸钙处理能够显著提高苹果外皮层中2,2’-联氮-双(3-乙基苯并噻唑啉-6-磺酸)阳离子自由基清除率、超氧化物歧化酶活力,抑制组织丙二醛含量的增加,避免果实受到钙胁迫造成的氧化应激损伤。