54 research outputs found
Almond witchesâ-broom phytoplasma (Candidatus Phytoplasma phoenicium): a real threat to almond, peach and nectarine.
Within less than a decade, Almond witchesâ-broom (AlmWB) phytoplasma killed over a hundred thousand almond trees in Lebanon (Abou-Jawdah et al., 2002). AlmWB belongs to the pigeon pea witchesâ broom group (16SrIX), and the scientific name (Candidatus Phytoplasma phoenicium) was suggested (Verdin et al., 2003). Grafting experiments revealed that AlmWB may also affect peaches and nectarines (Abou-Jawdah et al, 2003). Later on, a similar disease was reported in Iran (Verdin et al., 2003; Salehi et al., 2006). This disease is still spreading on almond trees to new areas in North Lebanon, but more recently shoot proliferation with succulent small light green leaves were observed on peach and nectarine in South Lebanon, where the disease seemed to be spreading relatively fast. DNA sequencing showed over 99% sequence homology with AlmWB (Abou-Jawdah et al. 2008). This report shows that epidemics of AlmWB may occur also on peach and nectarine under field conditions, and strongly suggests the presence of an efficient vector
Antifungal Activities of Extracts from Selected Lebanese Wild Plants against Plant Pathogenic Fungi
Extracts of nine plant species growing wild in Lebanon were tested for their efficacy against seven plant
pathogenic fungi: Botrytis cinerea, Alternaria solani, Penicillium sp., Cladosporium sp., Fusarium oxysporum f. sp.
melonis, Rhizoctonia solani and Sphaerotheca cucurbitae. Extracts of three of the plants, Origanum syriacum,
Micromeria nervosa and Plumbago maritima, showed the highest levels of in vitro activity against spore germination
and mycelial growth of the fungi tested. Inula viscosa showed high activity against spore germination but only
moderate activity against mycelial growth. The other five plant species tested Calamintha origanifolia, Micromeria
juliana, Ruta sp., Sideritis pullulans and Urginea maritima showed only moderate to low activity against these
fungi. Preventive sprays with extracts of O. syriacum, M. nervosa, P. maritima and I. viscosa, applied at concentrations
ranging between 4 and 8% to squash and cucumber seedlings, gave efficient protection against gray mold
caused by B. cinerea and powdery mildew caused by S. cucurbitae. However, these extracts did not control green mold
of citrus fruits caused by Penicillium sp. Thin layer chromatography revealed three inhibitory bands in extracts of O.
syriacum, two in I. viscosa and only one in each of the other plants tested: M. nervosa, P. maritima, C. origanifolia
and Ruta sp
'Candidatus Phytoplasma phoenicium’ associated with almond witches’-broom disease: from draft genome to genetic diversity among strain populations
BACKGROUND:
Almond witches'-broom (AlmWB), a devastating disease of almond, peach and nectarine in Lebanon, is associated with 'Candidatus Phytoplasma phoenicium'. In the present study, we generated a draft genome sequence of 'Ca. P. phoenicium' strain SA213, representative of phytoplasma strain populations from different host plants, and determined the genetic diversity among phytoplasma strain populations by phylogenetic analyses of 16S rRNA, groEL, tufB and inmp gene sequences.
RESULTS:
Sequence-based typing and phylogenetic analysis of the gene inmp, coding an integral membrane protein, distinguished AlmWB-associated phytoplasma strains originating from diverse host plants, whereas their 16S rRNA, tufB and groEL genes shared 100 % sequence identity. Moreover, dN/dS analysis indicated positive selection acting on inmp gene. Additionally, the analysis of 'Ca. P. phoenicium' draft genome revealed the presence of integral membrane proteins and effector-like proteins and potential candidates for interaction with hosts. One of the integral membrane proteins was predicted as BI-1, an inhibitor of apoptosis-promoting Bax factor. Bioinformatics analyses revealed the presence of putative BI-1 in draft and complete genomes of other 'Ca. Phytoplasma' species.
CONCLUSION:
The genetic diversity within 'Ca. P. phoenicium' strain populations in Lebanon suggested that AlmWB disease could be associated with phytoplasma strains derived from the adaptation of an original strain to diverse hosts. Moreover, the identification of a putative inhibitor of apoptosis-promoting Bax factor (BI-1) in 'Ca. P. phoenicium' draft genome and within genomes of other 'Ca. Phytoplasma' species suggested its potential role as a phytoplasma fitness-increasing factor by modification of the host-defense response
Survey of Leafhopper Species in Almond Orchards Infected with Almond Witches'-Broom Phytoplasma in Lebanon
Leafhoppers (Hemiptera: Auchenorrhyncha: Cicadellidae) account for more than 80% of all âAuchenorrhynchousâ vectors that transmit phytoplasmas. The leafhopper populations in two almond witches'-broom phytoplasma (AlmWB) infected sites: Tanboureet (south of Lebanon) and Bourj El Yahoudieh (north of Lebanon) were surveyed using yellow sticky traps. The survey revealed that the most abundant species was Asymmetrasca decedens, which represented 82.4% of all the leafhoppers sampled. Potential phytoplasma vectors in members of the subfamilies Aphrodinae, Deltocephalinae, and Megophthalminae were present in very low numbers including: Aphrodes makarovi, Cicadulina bipunctella, Euscelidius mundus, Fieberiella macchiae, Allygus theryi, Circulifer haematoceps, Neoaliturus transversalis, and Megophthalmus scabripennis. Allygus theryi (HorvĂĄth) (Deltocephalinae) was reported for the first time in Lebanon. Nested PCR analysis and sequencing showed that Asymmetrasca decedens, Empoasca decipiens, Fieberiella macchiae, Euscelidius mundus, Thamnottetix seclusis, Balclutha sp., Lylatina inexpectata, Allygus sp., and Annoplotettix danutae were nine potential carriers of AlmWB phytoplasma. Although the detection of phytoplasmas in an insect does not prove a definite vector relationship, the technique is useful in narrowing the search for potential vectors. The importance of this information for management of AlmWB is discussed
The potential of grafting with selected stone fruit varieties for management of almond witches' broom
A lethal disease of stone fruit trees, characterized by proliferation of axillary shoots and witches' broom symptoms, has caused severe problems for more than 200,000 almond, peach and nectarine plants in Lebanon since the 1990s. The agent associated with almond witches' broom (AlmWB) was identified as 'Candidatus Phytoplasma phoenicium', belonging to subgroup 16SrIX-B. Management of the disease has relied on uprooting of affected trees. Since no disease-resistant cultivars have been identified, grafting experiments in the field and in the greenhouse we performed to develop a new option for the integrated management of the disease. AlmWB-affected almond trees were grafted with apricot or plum scions, and their growth was symptomless for over 2 years in the field. Similarly, in greenhouse trials, grafting AlmWB-affected almond scions onto seedlings of plum and apricot resulted in growth of symptomless shoots. One year post-grafting in the greenhouse the phytoplasma was not detected by PCR in almond grafted on Angeleno and Red plum and Early Blush apricot used as rootstocks. The phytoplasma was, however, detected in almond scions grafted on Farclo apricot and Jawhara plum, although their growth was symptomless. Shoots developing from Farclo apricot grafted on AlmWB-affected trees in the field showed severe symptoms 2 months after grafting but recovered 3 months later, and remained symptomless for about 2.5 years. Similarly, in the greenhouse trial, the growth of phytoplasma-infected scions grafted on Early blush apricot developed symptoms 2 months after grafting, did not show symptoms 2 months later, and remained symptomless 1 year later. Quantitative PCR analysis of almond scions grafted on Early blush apricot seedlings confirmed reduction of phytoplasma titre from 44 GU/ng DNA to below detection level
Incidence and management of virus diseases of cucurbits in Lebanon
International audienceVirus diseases are the major cause of economic losses in commercial cucurbit production in Lebanon. This survey revealed that Zucchini yellow mosaic Potyvirus (ZYMV) and Cucurbit aphid-borne yellows Polerovirus (CABYV) are the most common viruses of field-grown cucurbits in Lebanon. They are followed by Watermelon mosaic Potyvirus (WMV), Papaya ringspot Potyvirus-watermelon strain (PRSV-W) and to a lesser extent Cucumber mosaic Cucumovirus (CMV). Cross-protection with a mild strain of ZYMV-WK gave significant protection of squash plants against severe virus symptoms and resulted in significant yield increase as compared to the control. Silver plastic mulch also gave a significant protection against viral diseases and a higher total yield than controls. However, the best protection and highest total yield were obtained with floating row covers. The integration of cross-protection with silver mulch or with floating row covers improved the protection obtained with either approach
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