PREVALENCE AND CHARACTERISTICS OF CHERRY SHOT-HOLE DISEASE IN GILGIT-BALTISTAN

Riaz Ahmad, Aqleem Abbas, Abdul Razaq, Iqbal Hussain, Mir M.N. Qayyum, Samreen Alam, Inza Batool, Suha Sakina

Abstract


Shot-hole disease is one of the most common and significant diseases affecting cherry trees in Gilgit-Baltistan, Pakistan, every year. It results in small reddish areas on leaves and fruits, forming characteristic holes. However, the pathogen associated with the disease, its pathogenicity, and its growth performance under different environmental conditions remains unknown. In this study, the pathogen associated with shot-hole disease was identified as W. carpophilus. Furthermore, variations in pathogenicity were observed among the five isolates of the pathogen (SRA-1, SRA-2, SRA-3, SRA-4, and SRA-5), with SRA-5 exhibiting smaller lesion sizes and SRA-1 to SRA-4 displaying larger lesion sizes. Differential responses to temperature variations were noted, with isolates SRA-1 and SRA-4 growing faster at different temperature regimes. Conidia count and biomass measurements revealed isolate-specific patterns under varying temperature regimes. Growth performance and colony characteristics varied among isolates. Environmental responses indicated sensitivity to osmotic potential and pH, as well as preferences for different culture media. This research provides crucial insights into the morphology, behavior, and adaptation of W. carpophilus. These findings will facilitate the establishment of management strategies against shot-hole disease in cherry orchards.


Keywords


Cherry; Shot-hole disease; pathogenicity; morphological characteristics; environmental responses.

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References


Abbas, A., M. Mubeen, W. Younus, Q. Shakeel, Y. Iftikhar, S. Bashir, M. A. Zeshan and A. Hussain. 2023. Plant Diseases and Pests, Growing Threats to Food Security of Gilgit-Baltistan, Pakistan. Sarhad Journal of Agriculture, 39(2).

Adaskaveg, J. E., J. M. Ogawa and E. E. Butler. 1990. Morphology and ontogeny of conidia in Wilsonomyces carpophilus, gen. nov. and comb. nov., causal pathogen of shot hole disease of Prunus species. Mycotax, 37:275-290.

Alaniz, S., M. León, A. Vicent, J. García-Jiménez, P. Abad-Campos and J. Armengol. 2007. Characterization of Cylindrocarpon species associated with black foot disease of grapevine in Spain. Plant disease, 91(9):1187-1193.

CPLR. 2023. Protocol of phytosanitary requirements for export of fresh cherries from Pakistan to China. 1-13.

Dar, R. A., A. N. Rai and I. A. Shiekh, 2017. Stigmina carpophila detected on Prunus armeniaca and Prunus persica in India. Australasian Plant Disease Notes, 12:1-4.

Ellis, M. B. and J. P. Ellis, 1985. Microfungi on land plants. An identification handbook. Croom Helm Ltd.

Ellis, M. B., 1959. Clasterosporium and some allied Dematiaceae-Phragmosporae, I, II. Mycological Papers.

FAOSTAT. 2021. Food and Agriculture Organization of the United Nation. https://www.fao.org/faostat/en/

Han, V. C., N. H. Yu, H. Yoon, N. H. Ahn, Y. K. Son, B. H. Lee and J. C. Kim, 2022. Identification, characterization, and efficacy evaluation of Bacillus velezensis for shot-hole disease biocontrol in flowering cherry. The Plant Pathology Journal, 38:115.

Hassan, J., A. Zaman, N. Iqbal, H. Ali, A. M. Khan, M. Fawad, Z. Hussain, A. Sheikh and A. Aman. 2022. A case study of nutritional status of cherry (Prunus serotina), orchard soils and fruit quality attributes of Baltistan Region. Pakistan Journal of Weed Science Research, 28:231-241.

Khalilabad, A. A. and K. B. Fotouhifar. 2023. First Detection of Wilsonomyces carpophilus Causing Leaf Spot and Shot Hole Disease on Vitis vinifera. Plant Health Progress, 24:4-8.

Lücking, R., M. C. Aime, B. Robbertse, A. N. Miller, H. A. Ariyawansa, T. Aoki, G. Cardinali, P. W. Crous, I. S. Druzhinina, D. M. Geiser and D. L. Hawksworth. 2020. Unambiguous identification of fungi: where do we stand and how accurate and precise is fungal DNA barcoding? IMA fungus, 11:1-32.

Molnár, B., S. Szabó and I. J. Holb. 2022a. Temporal dynamics of incidence of shot hole disease affected by training systems and cultivar susceptibilities in an integrated plum orchard. Journal of Fungi, 8:580.

Molnár, B., S. Szabó and I. J. Holb. 2022b. Temporal dynamics of incidence of shot hole disease affected by training systems and cultivar susceptibilities in an integrated plum orchard. Journal of Fungi, 8:580.

Muhammad, M., A. Hussain, S. Ali, W. Akram, I. Roomi, F. Faiz and I. Hussain. 2022. Geostatistical Analysis of Apricot Shot Hole Disease and Influence Factors in District Nagar, Gilgit-Baltistan, Pakistan. International Journal of Phytopathology, 11(3):227-238.

Nabi, A., M. U. D. Shah, B. A. Padder, M. S. Dar and M. Ahmad. 2018. Morpho-cultural, pathological and molecular variability in Thyrostroma carpophilum causing shot hole of stone fruits in India. European Journal of Plant Pathology, 151: 613-627.

Noor, R. S., F. Hussain, M. U. Farooq and M. Umair. 2020. Cost and profitability analysis of cherry production: The case study of district Quetta, Pakistan. Big Data in Agriculture, 2(2):65-71.

Smith, I. M., J. Dunez, D. H. Phillips, R. A. Lelliott and S. A. Archer. 2009. European handbook of plant diseases. John Wiley & Sons.

Spies, M., 2021. Promises and perils of the China-Pakistan economic corridor: agriculture and export prospects in northern Pakistan. Eurasian Geography and Economics, 1-27.

Sundaravadivelan, C., P. Kumar, J. Anburaj, T. Kuberan and S. Sivasubramanian. 2014. Effect of pesticides on shot hole borer Euwallacea fornicatus (Eichhoff) (Scolytidae: coleoptera) feeding pathogenic fungi Fusarium bugnicourtii (bray ford).

Teviotdale, B., N. Goodell and D. Harper. 1999. Shot hole encourages almond drop, doesn't harm kernels. California Agriculture, 53(1):16-18.

Teviotdale, B. L., N. Goodell and D. Harper. 1997. Effect of infection by the shot‐hole fungus, Wilsonomyces carpophilus, on drop and quality of almond fruit 1. Eppo Bulletin, 27(4):493-500.

Verma, V. O., K. Pradheep, J. C. Rana and S. K. Sharma. 2005. Identification of resistance source against shot hole-a fungal disease in peach (Prunus persica L.) germplasm. Indian Journal of Plant Genetic Resources, 18(02).

Ye, S., H. Jia, G. Cai, C. Tian and R. Ma. 2020. Morphology, DNA phylogeny, and pathogenicity of Wilsonomyces carpophilus isolate causing shot-hole disease of Prunus divaricata and Prunus armeniaca in wild-fruit forest of western tianshan mountains, China. Forests, 11(3):319.




DOI: https://doi.org/10.33866/phytopathol.035.02.0934

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