Supplementary Antimold Activity of Phosethyl AL, A New Brown Rot Fungicide for Citrus Fruits

Phosethyl Al (= Aliette) is a new and promising postharvest fungicide against brown rot of citrus fruits. Its effectiveness in controlling green mold (Penicillium digitaum), the major citrus fruit pathogen, was studied on artificially inoculated fruit and compared with that of sodium o-phenylphenate (SOPP) and thiabendazole (TBZ). In vitro and in vivo experiments have shown that phosethyl Al is capable — although to a lesser extent than SOPP and TBZ — of inhibiting growth of P. digitatum and reducing the incidence of decay of citrus fruits, caused by a wild-type, and apparently also by a benzimidazole-resistant strain of this fungus. The influence of times of treatment and modes of application (including temperature and duration of treatment, rinsing of the fruit) on the effectiveness of phosethyl Al, SOPP and TBZ in controlling green mold was studied and discussed. It is concluded that, under conditions of natural infection, phosethyl Al can be used for the postharvest control of Phytophthora-caused brown rot without any apparent increase in the incidence of green mold in the treated fruits.     

Use of organic acids and salts to control postharvest diseases of lemon fruits in Egypt

Abstract

Postharvest diseases caused by Geotricum candidum (sour rot), Penicillium digitatum (green mould), and P. italicum (blue mould) are the most important negative factors affecting handling and marketing of citrus fruits in Egypt. The effect of organic acids (ascorbic, benzoic, citric and sorbic) as well as organic salts (potassium sorbate and sodium benzoate) were evaluated on the growth of causal agents and their disease incidence under in vitro and in vivo conditions. Complete inhibition was observed in the linear growth of all tested fungi when exposed to benzoic, citric and sorbic organic acids at concentrations of 4% and 2% of either sodium benzoate or potassium sorbate, respectively. Minimizing the tested concentration of organic acid down to 2%, the tested fungi fluctuated in their response such that only benzoic and sorbic acids could completely inhibit the growth of either P. digitatum or P. italicum only. Different organic acids and salts showed various levels of either protective or therapeutic effect for coated lemon fruits against mould infection whatever the time of their artificial inoculation under in vivo conditions. All treated fruits showed reduction in sour rot and green and blue mould diseases when compared with untreated fruits. Complete inhibition of mould incidence was obtained in coated lemon fruits with 4% of water or wax mixtures of sodium benzoate and potassium sorbate 24 hours before inoculation. Also, high reduction in mould incidence was observed in lemon fruits coated with the same concentration at 48 hours after inoculation under the same conditions. On the other hand, the tested organic acids showed a lesser effect on mould incidence. Moreover, they were more effective against mould incidence when dissolved in water than wax, that only 4% of water mixture of sorbic and benzoic acids showed 100% protection against mould incidence. Furthermore, the severity of infection records followed the same trend. The present findings demonstrate that potassium sorbate and sodium benzoate have potential as environmentally friendly products, nontoxic postharvest fungicides against sour rot, green and blue mould incidence of stored citrus fruits and could be suggested for commercial use in packing-houses in consideration to their wide consumption as safely food preservatives.     

控制果蔬采后病害的生物学技术

化学农药对环境和农产品的污染直接影响人类的健康,已成为当今公众所关注的主要问题之一。为了保证农产品的卫生和安全,世界各国都在探索能代替化学农药的防病新技术。生物防治是近年来被证明很有成效的新途径,它主要是利用微生物之间的拮抗作用,选择对农产品不造成危害的微生物来抑制引起采后腐烂的病原真菌的生长。生物防治的研究主要包括以下三方面：（1）选用有拮抗作用的微生物;（2）利用植物和动物产生的自然抗病物质;（3）抗性的诱导。本文主要论述近年来生物防治领域的研究结果与进展,拟在为进一步开拓和发展控制采后病害的安全有效的技术提供新的思路。     

Efficacy assessment of Candida oleophila (strain O) and Pichia anomala (strain K) against major postharvest diseases of citrus fruits in Morocco

Two yeasts, Candida oleophila (strain O) and Pichia anomala (strain K), were previously selected for their antagonistic activity against postharvest diseases on apples and pears. The objective of the study was to determine the efficacy of both antagonistic yeast's against wound postharvest pathogens of citrus fruits. The efficacy of both strains (applied at 10(5), 10(6) and 10(8) CFU/ml) was assessed against Penicillium digitatum and P. italicum inoculated after one hour (at a concentration of 10(5), 10(6) and 10(7) spores/ml) on citrus varieties 'clementine' and 'valencia-late'. Fruits were incubated for one week at 24 degrees C before measurement of lesion diameter. The protective levels were positively correlated with high concentration of antagonist and low concentration of pathogen. Highest protective levels (from 73 to 100%) were detected with the application of strain O or strain K at 10(8) CFU/ml whatever the pathogen (applied at 10(5) spores/ml) and the citrus variety. The antagonistic activity of both strains was also dependent on the incubation period before pathogen Inoculation. The protective level increased with time between application of the antagonist and inoculation of fungal spores. Whatever the yeast strain (10(8) CFU/ml). the protective level exceed 70% when wounded oranges were inoculated with P. digitatum or P. italicum (both at 10(6) spores/ml) 12 hours after yeast treatment. These protective levels reached 100% when the incubation period separating the antagonist application and the pathogenic inoculation was 24 hours. On the other hand, high protective levels (< 80%) were also observed against the sour rot decay on citrus variety 'clementine' caused by Geotrichum candidum inoculated at concentration of 10(6) spores/ml when strain O or strain K were applied at 10(8) CFU/ml 24 hours before pathogen. All these results support the potential practical application of both strains against major postharvest pathogens on citrus.     

控制果蔬采后病害的生物学技术

化学农药对环境和农产品的污染直接影响人类的健康,已成为当今公众所关注的主要问题之一。为了保证农产品的卫生和安全,世界各国都在探索能代替化学农药的防病新技术。生物防治是近年来被证明很有成效的新途径,它主要是利用微生物之间的拮抗作用,选择对农产品不造成危害的微生物来抑制引起采后腐烂的病原真菌的生长。生物防治的研究主要包括主要包括以下三方面：（１）选用有拮抗作用的微生物;（２）利用植物和动物产生的自然抗     

果蔬采后诱导抗病性

诱导抗病性是生物防治的途径之一 ,本文综述了诱导抗病性在果蔬采后病害防治中的研究进展 ,包括多种物理性、化学性和生物性激发子对许多采后果蔬抗病性的诱导以及诱导抗病性产生的机制 ,并分析它在果蔬防腐保鲜上的应用前景。     

果蔬采后诱导抗病性

诱导抗病性是生物防治的途径之一,本文综述了诱导抗病性在果蔬采后病害防治中的研究进展,包括多种物理性、化学性和生物性激发子对许多采后果蔬抗病性的诱导以及诱导抗病性产生的机制,并分析它在果蔬防腐保鲜上的应用前景。     

猕猴桃采后真菌病害生物防治研究进展

猕猴桃果实易受多种病原真菌的侵染,采后易发生软腐病、灰霉病、青霉病等严重危害果实品质的真菌性病害。传统的有效防治方法主要为采前使用化学杀菌剂,但其易污染环境并可能危害人类健康。目前,已有一系列生物防治方法被研究并报道,这些方法可有效防控猕猴桃采后真菌病害：第一类为天然抑菌物质,包括植物提取物和其他天然物质;第二类为拮抗微生物,包括生防酵母、生防细菌、生防木霉,生防菌也能与物理及化学方法协同发挥作用。本文概述了各类生物防治方法在猕猴桃采后真菌病害绿色防控方面的研究进展及生防机理,并提出了目前存在的问题,最后展望了这一领域今后的研究方向。     

Antifungal activity of thyme oil against Geotrichum citri-aurantii in vitro and in vivo

Aims:  To investigate antifungal effect of thyme oil on Geotrichum citri-aurantii arthroconidia germination and germ tube elongation, to reveal effects of thyme oil on morphological structures on fungal hyphae and arthroconidia and to assess potential bio-control capacities of thyme oil against disease suppression in vivo conditions.
Methods and Results:  Thyme oil controlled the growth of G. citri-aurantii effectively. Arthroconidia germination and germ tube elongation in potato dextrose broth was greatly inhibited by thyme oil. At 600 μl l⁻¹, it inhibited the germination of about 94% of the arthroconidia and the germ tube length was only 4·32 ± 0·28 μm. Observations using light microscope, scanning electron microscope and transmission electron microscope revealed ultrastructural modifications caused by thyme oil that included markedly shrivelled and crinkled hyphae and arthroconidia, plasma membrane disruption and mitochondrial disorganization. Thyme oil applied to 'Satsuma' mandarin oranges that had been artificially wounded and inoculated with G. citri-aurantii reduced sour rot from 78·1% among untreated control fruit to 14·1% after 5 days at 26°C. Thyme oil applied to intact fruits reduced the decay from 76% among untreated control fruit to 35% after 30 days at 20°C. Thyme oil treatment did not harm 'Satsuma' mandarin oranges when they were examined after treatment and storage at 20°C for 30 days.
Conclusions:  Thyme oil may provide an alternative means of controlling postharvest sour rot on citrus fruit.
Significance and Impact of the Study:  The use of such essential oil may constitute an important alternative to synthetic fungicides. They can be exploited in commercial production and applied under storage and greenhouse conditions.     

热杀菌剂处理对“紫花”和“留香”杧果贮藏品质影响?

52±1℃热杀菌剂苯来特或 TBZ等溶液浸果处理,对“留香”和“紫花”品种杧果采后炭疽病和蒂腐病有显著控制效果,改善果实外观,延长贮藏寿命,提高贮藏品质,减少病害的腐烂损失 60％,获得在常温下贮藏 18d的采后寿命和 100％的商品率。在热杀菌剂处理后,贮藏于低温13±1℃下的 杧果,显著减慢果皮转黄和后熟软化,降低呼吸速率,延长贮藏寿命2～3周以上,并且,显著减少病害和腐烂损失,有利于提高采后杧果的商品率和远途运输及销售。     

Parasitic specialization ofGeotrichum candidum citrus race

Parasitic specialization ofGeotrichum candidum citrus race, the causal agent of citrus sour rot, was investigated. Of seven isolates tested for pathogenecity, all could infect ten species of citrus fruits and edible parts of five species of noncitrus crops. Only one isolate (Ap2), isolated from soil of an apple orchard, could infect apple fruit.     

Control of green mold and sour rot of stored lemon by biofumigation with Muscodor albus

Control of postharvest lemon diseases by biofumigation with the volatile-producing fungus Muscodor albus was investigated. In vitro exposure to M. albus volatile compounds for 3 days killed Penicillium digitatum and Geotrichum citri-aurantii, causes of green mold and sour rot of lemons, respectively. Lemons were wound-inoculated with P. digitatum and placed in closed 11-L plastic boxes with rye grain cultures of M. albus at ambient temperature. There was no contact between the fungus and the fruit. Biofumigation for 24–72 h controlled green mold significantly, even when treatment began 24 h after inoculation. Effectiveness was related to the amount of M. albus present. In tests conducted inside a 11.7-m³ degreening room with 5 ppm ethylene at 20 °C, green mold incidence on lemons was reduced on average from 89.8 to 26.2% after exposure to M. albus for 48 h. Ethylene accelerates color development in harvested citrus fruit. M. albus had no effect on color development. Biofumigation in small boxes immediately after inoculation controlled sour rot, but was ineffective if applied 24 h later. G. citri-aurantii may be less sensitive to the volatile compounds than P. digitatum or escapes exposure within the fruit rind. Biofumigation with M. albus could control decay effectively in storage rooms or shipping packages.     

A new report of pre-harvest ear rot of corn caused by Geotrichum candidum from Iran

In summer of 2004, samples of husk looseness ear of corn (Zea mays) (cv. 700-Karaj) were collected from corn fields in Ali-Abad (Jiroft region), Kerman province, Southeastern Iran, for diagnosis of an unusual ear decay. A fungus was isolated from the rotting kernels and subsequently identified as Geotrichum candidum. The fungal pathogen was found to be closely related to G. citri-aurantii (citrus race) based on morphological, physiological and pathogenicity properties. The fungal pathogenicity test was demonstrated by fulfilling Koch's postulates. The pathogen caused rot disease on husk looseness corn kernels in soft-dough stage of ripening. The fungus was also pathogenic on ripe lemon and green and ripe tomato fruits. Fungal isolates of corn were compared to isolates from soft-rotten potato tubers. These two groups of isolates were highly similar on the basis of their morphological, biochemical and pathogenicity characteristics. To our knowledge, this is the first known report of corn ear rot caused by G. candidum in the world.     

Effect of water activity and temperature on germination and growth of Penicillium digitatum,P. italicum and Geotrichum candidum

AIMS: This study compares the effect of temperature (4-37 degrees C) and water activity (aw: 0.99-0.87) and their interactions on the germination rates, lag times prior to germination and mycelial growth 'in vitro' of Penicillium digitatum, P. italicum and Geotrichum candidum, the main postharvest pathogens affecting citrus fruits. METHODS AND RESULTS: Germination and growth were markedly influenced by temperature and aw. Generally, lag times were longer and germination and growth rates were slower when conditions of temperature and aw were far from optimum. All the studied species were able to germinate over a range of 4-30 degrees C at 0.995 aw, although in non-optimal conditions P. digitatum only reached 40-60% of germinated conidia. At low temperatures, P. italicum germinated and grew faster than P. digitatum and G. candidum, particularly at 0.95 aw. Penicillium italicum was also able to germinate and grow in the driest studied conditions (0.87 aw), while G. candidum did not germinate under 0.95 aw. CONCLUSIONS: Knowledge of the ecological requirements of these fungi is important in order to understand their behaviour in natural situations and to predict fungal spoilage on citrus fruits.     

生防细菌T132的鉴定及其对采后柑橘炭疽病的抑制效果

【目的】柑橘(Citri)是世界上重要的果树。由胶孢炭疽菌[Colletotrichum gloeosporioides(Penz.)]引起的柑橘炭疽病是柑橘生产的主要病害之一。为探索对采后柑橘炭疽病有效的生防措施,分离鉴定柑橘根围土壤中一株细菌T132,并研究其特性及生防效果。【方法】根据菌株T132的形态特征、生理生化特性以及16S rDNA序列对其进行鉴定;通过连续8次在人工培养基上传代培养,测定该菌株的遗传稳定性;采用柑橘果实刺伤挑战接种和拮抗菌液直接浸泡健康果实两种方法研究该菌株对柑橘炭疽病的抑菌防病效果;利用洋葱伯克霍尔德氏菌致病因子的特异性引物检测菌株T132是否为潜在的人类致病菌。【结果】菌株T132鉴定为越南伯克霍尔德氏菌(Burkholderia vietnamiensis)。连续8次在人工培养基上传代培养,菌株T132抑制胶孢炭疽病菌生长的能力没有发生明显改变。菌株T132对胶孢炭疽菌C.gloeosporioides引起的柑橘炭疽病有明显的防治作用,刺伤接种的防效为88.2%,自然发病的防效为54.9%。未检测到该拮抗菌株有人体致病相关的洋葱伯克霍尔德氏菌致病因子(BCESM)毒力基因。【结论】首次报道对柑橘采后炭疽病具有生防效果、对人类相对安全的越南伯克霍尔德氏菌生防菌株。     

Screening preharvest/postharvest strategies to prevent fruit rot decay

In fruit growing preharvest sprayings in the orchard are mainly applied to protect fruit from decaying. Next to multisite fungicides (captan, thiram, tolylfluanid) the most commonly used products recognized for the Belgium market are Bellis (pyraclostrobin & boscalid) and the combination of Topsin M (thiophanate-methyl) and Frugico (diethofencarb). In general the spraying schedule varies depending on weather conditions (infection risk), preharvest interval of available fungicides, fruitgrower and cultivar of pome fruit (apple/pear). Facing the climatological conditions before picking the residue loading on the fruit surface can differ enormously. Also wet (pre)grading is considered to decrease the product residue resulting to fruits which are less protected before entering the cold storage room. In this context a partially replacement of the preharvest treatments by one postharvest application could offer a reliable alternative to the PPP reduction program (Plant Protection Products) in the orchard. A standardized application method by dipping or drenching will cover the fruits homogenically resulting in a rationalized fungicide use compared to the preharvest sprayings in the orchard. For the Belgium market Philabuster (imazalil & pyrimethanil) is registered for postharvest treatments since for this product a proper solution for the waste water of postharvest uses was developed to protect surface waters (Funds technology). Philabuster provides an advanced mould control towards fruit rot pathogens Gloeosporium spp., Botrytis cinerea and Penicillium spp. In this context several trials were set up to evaluate the biological efficacy of Philabuster alone or in combination with preharvest sprayings in the orchard. In concrete different preharvest spraying schedules were applied in the last six weeks before harvest on apple and pear facing parameters as rational fungicide use, antifungal effectiveness and cost price. The purpose was to select the optimal combination in use of preharvest fungicides with Philabuster as postharvest treatment, which offer full protection towards all key pathogens in apple and pear.     

Antifungal activity of Moroccan medicinal plants against citrus sour rot agent Geotrichum candidum

Aims: The aim of this work was to find an alternative to the chemical fungicides currently used in the control of Geotrichum candidum, the causal agent of citrus sour rot. Methods and Results: Minimal inhibition concentrations (MIC) and minimal fungicidal concentrations (MFC) were determined using agar dilution method. The methanol extracts of Cistus villosus, Ceratonia siliqua and Halimium umbellatum exhibited strong antifungal activity with MIC values ranged between 0·156 and 1·25 mg ml^?1, and MFC values ranged between 2·5 and 5 mg ml^?1. Incidence of sour rot was lowered to 0·00, 3·33 and 11·66% when mandarin fruit was treated with C. villosus, C. siliqua and H. umbellatum methanol extracts at 50 mg ml^?1, respectively, compared with 95% in the control. Conclusions: Cistus villosus, C. siliqua and H. umbellatum methanol extracts successfully reduced the disease incidence caused by G. candidum, and no phytotoxic effects were recorded on citrus fruit. Significance and Impact of the Study: These findings suggest that C. villosus, C. siliqua and H. umbellatum plants may be useful and effective agents for control of citrus sour rot. Such natural products therefore represent a sustainable alternative to the use of synthetic fungicides.     

Can synthetic pesticides be replaced with biologically-based alternatives?—an industry perspective

Agricultural chemical companies have invested in the discovery and development of biological pesticides to complement synthetic pesticides for the control of insects, diseases, and weeds on agronomic and horticultural crops. For plant disease control, companies envisage biological fungicides entering markets where they have the best chance of performing and which are most receptive to using biological control methods. Fewer regulatory requirements can mean faster registration for a biological than a synthetic pesticide. However, industry’s requirements for competitive performance, effective formulations, and economic production can mean significant investments in time and money for a biological pesticide, although total investment may be less than for a synthetic pesticide. One biocontrol project in which industry has invested is baculoviruses for insect control. Insect baculoviruses, genetically modified to kill insects faster than wild-type viruses, are attractive biocontrol agents because their selectivity to insect pests and safety to beneficial insects and mammals enable them to compete with synthetic insecticides. Industry is looking for similar biocontrol opportunities in disease control. Biocontrol agents for seedling disease, root rot, and postharvest disease control have been registered by the EPA and are trying to compete with synthetic fungicides for market share. To date, effective biocontrol agents have not been identified for the control of serious foliar diseases, such as grape downy mildew, potato late blight, wheat powdery mildew, and apple scab. Farmers must rely on synthetic fungicides and agronomic methods to control these diseases for the foreseeable future. Received 06 February 1997/ Accepted in revised form 01 June 1997     

Characterization,pathogenicity, and fungicide sensitivity of Alternaria isolates associated with preharvest fruit drop in California citrus

Alternaria rot has been recently described as an emerging fungal disease of citrus causing significant damage in California groves. A survey was conducted to determine latent infections on fruits, twigs, and leaves and investigate their seasonal patterns during 2019 and 2020. On fruits, latent infections were more associated with the stem end than with the stylar end, except during spring when a significantly high percentage of flowers (86%) had latent infections. Latent infections on twigs varied markedly between years (28% in 2019 and 9.5% in 2020), while Alternaria spp. were also recovered from citrus leaves. Alternaria isolates collected during the survey were identified based on multigene sequence analysis, confirming that Alternaria alternata and Alternaria arborescens are the two species associated with infections of citrus fruits. Of the 23 isolates, 19 were identified as A. alternata and demonstrated the dominance of this species over A. arborescens. Isolates representing populations of these two species were selected as representative isolates for physiological and morphological studies. A. alternata and A. arborescens showed similar conidial dimensions but differed in the number of conidia produced. Growth rates demonstrated that A. alternata grows faster than A. arborescens at all the temperatures evaluated, except at 25 and 35 °C. The growth patterns were similar for both species. The sporulation rate of the Alternaria isolates was influenced differently by temperature. This parameter also influenced conidial germination and appressorium formation, and no significant differences were observed between Alternaria species. Pathogenicity and aggressiveness tests on detached fruit demonstrated the ability of A. alternata and A. arborescens to cause internal lesions and produce fruit drop in the orchards with no quantitative differences between them (disease severity indexes of 58 and 68%, respectively). The fungicide sensitivity tests showed that DMI fungicides are the most effective fungicides in reducing mycelial growth. The SDHI fungicides had intermediate activity against the mycelial growth but also suppressed spore germination. The spore germination assay suggested that some of the isolates included in this study might have some level of resistance to QoI and SDHI fungicides. The findings of this study provide new information about the pathogens associated with the excessive fruit drop recently observed in some California citrus groves.     

柑橘采后品质变化及保鲜技术研究进展

柑橘Citrus spp.是中国南方重要的热带、亚热带果树,其果实具有较高营养价值。然而,柑橘果实采后容易发生腐烂、失水、营养损失和病害,导致果实品质劣变,商品价值降低。本文就柑橘果实采后外观色泽,果实水分,果肉糖、酸、维生素C含量变化,果实病害青霉病、褐斑病、枯水病、油斑病发生,以及低温贮藏、热处理、短波紫外线(UV-C)照射、化学保鲜剂、生物技术保鲜等保鲜技术的研究进展进行综述,为提高柑橘保鲜效果、保持柑橘果实采后品质、延长果实保鲜期提供科学依据与生产实践指导。