Nematode Diversity Associated with Grapevines in İzmir, Manisa, Çanakkale, Balıkesir, and Bilecik Provinces in Türkiye

The study was conducted in İzmir, Manisa, Çanakkale, Balıkesir, and Bilecik provinces to determine nematode diversity and community structure. Thirty-six genera (İzmir 34 genera; Manisa 32 genera; Bilecik 21 genera; Çanakkale 28 genera) with different trophic groups were recorded: fungivores (3 genera; e.g., Aphelenchoides spp.), bacterivores (9 genera, e.g., Achromadora Cobb, 1913 and Plectus Bastian 1865 spp.), omnivore (4 genera; e.g., Aporcelaimus Thorne, 1936 and Dorylaimus Thorne & Swanger, 1936 and Eudorylaimus Andrassy, 1959 spp.), predators (3 genera; e.g., Clarkus spp.), herbivores (17 genera; e.g., Boleodorus tylactus Thorne, 1941). Twenty-six species of herbivores were identified, and the most common species were from the genera Filenchus Andrassy, 1954, Geocenamus Thorne & Malek, 1968; Pratylenchus Filipjev, 1934, and Helicotylenchus Steiner, 1945. Dorylaimus Dujardin, 1845; Mesorhabditis Osche, 1952; Cephalobus Bastian, 1865; Acrobeloides Cobb, 1924; Mesodorylaimus Andreassy, 1959; Aphelenchus Bastian, 1865, and Ditylenchus Filipjev were other commonly found nematode genera. Meloidogyne incognita, M. javanica, Mesocriconema xenoplax, Longidorus elongatus, Xiphinema index, X. italiae, Praylenchus thornei, and P. neglectus identified constitute a severe threat to grape production by causing crop damage or transmitting virus diseases.

Keywords:

Community structure, Nematode fauna, Predators, Vineyards Distribution,

PDF

___

Abd-Elgawad, M.M.M., & Askary, T.H. (2015) Impact of phytonematodes on agriculture economy. In: Askary TH, Martinelli PRP (Ed.) Biocontrol agents of Phytonematodes. CAB International, Wallingford, UK, pp 3-49.
Agulheiro-Santos C.A., Laranjo, M., & Ricardo-Rodrigues, S. (2022). Table Grapes: There Is More to Vitiviniculture than Wine. Grapes and Wine. doi: 10.5772/intechopen.99986.
Akyazı, F., Yildiz, S., & Dede, Ö. & Felek, A. (2012). Biodiversity of nematodes in potato growing areas of Ordu, Turkey. Journal of Animal and Veterinary Advances, 11:2660-2664.
Al-Banna, L., & Gardner, S.L. (1996). "Nematode Diversity of Native Species of Vitis in California". Faculty Publications from the Harold W. Manter Laboratory of Parasitology. 65. https://digitalcommons.unl.edu/parasitologyfacpubs/65. Accessed date: 1 February, 2023.
Arrold, N.P., Blake, C.D. (1966). Some effects of Ditylenchus myceliophagus and Aphelenchoides composticola on the growth on agar plates of the cultivated mushroom, Agaricus bisporus Nematologica, 12:501-510.
Blanc, C., Sy, M., Djigal, D., Brauman, A., Normand, P., & Villenave, C. (2006). Nutrition on bacteria by bacterial-feeding nematodes and consequences on the structure of soil bacterial community. Eurepan Journal of Soil Biology, 42:S70–S78.
Bongers, R. (1990). The maturity index: An ecological measure of environmental disturbance based on nematode species composition. Oecologia, 83:14-19.
Bongers, T., & Ferris, H. (1999). Nematode community structure as a bioindicator in environmental monitoring. Trends Ecology and Evolation, 14(6):224-228.
Bongers, T., & Bongers, M. (1998). Functional diversity of nematodes. Applied Soil Ecology, 10(3):239-251.
Deimi, A.M., & Mitkowski, N. (2010). Nematodes associated with vineyards throughout Markazi Province (Arak), Iran. Australasian Plant Pathology, 39:571–577.
Elekçioğlu D.H., Ohnesorge, B., Lung, G., & Uygun, N. (1994). Plant parasitic nematodes in the East Mediterranean Region of Turkey. Nematologia Mediterranea, 22:59-63.
Forge, T., Smit, R., Neilsen, D., & Neilsen, G. (2020). Potential impacts of the ring nematode, Mesocriconema xenoplax, on grapevines in British Columbia: a microplot study. Journal of Nematology, 52:e2020-86.
Hoschitz, M. (2004). Community and trophic structure of soil nematodes associated with Vitis spp. in Austria. Verhandlungen der Zoologisch-Botanischen Gesellschaft in Wien, 141:97–107.
Ingham, R.E., Trofymow, J.A., Ingham, E.R., & Coleman, D.C. (1985). Interactions of bacteria, fungi, and their nematode grazers: Effects on nutrient cycling and plant growth. Ecological Monographs, 55:119-140.
Jenkins, W.R. (1964). Rapid centrifugal-flotation technique for separating nematodes from soil. Plant Disease Reporter, 48:692.
Kennedy, A.C., & Luna, L.Z. (2005). Rhizosphere. Encyclopedia of Soils in the Environment, 399-406.
Kumari, S. (2012). Aphelenchus avenae (Nematoda: Aphelenchidae) under the rhizosphere of Brassica napus. Helminthologia, 49(1):57–59.
Küpe, M., Ercisli, S., Baron, M., & Sochor, J. (2021). Sustainable viticulture on traditional ‘Baran’ training system in Eastern Turkey. Sustainability, 13(18):10236.
Mankau, R., & Mankau, S.K. (1963). The role of mycophagous nematodes in the soil. The relationships of Aphelenchus avenae to phytopathogenic soil fungi. Pp 271-280. In. J. Doeksen and J van der Drift, eds. Soil organisms, p 271-280. The Netherlands: North-Holland Publishing Co.
Mistanoğlu, İ., Kaşkavalcı, G., & Devran, Z., (2015). Identification of the economically important plant parasitic nematodes in vineyards areas of İzmir and Manisa provinces by morphological and molecular techniques. Turkish Journal of Entomology, 39(3):297-309.
Munawar, M., Castillo, P., & Yevtushenko, DP. (2022). Description of Filenchus Species from Agroecosystem of Southern Alberta, Canada. Agronomy, 12(3):690.
Neher, D., Bongers, T., & Ferris, H. (2004). Computation of nematode community indices. http://nemaplex.ucdavis.edu/FerrisPublications/PublicationsLimitedDistribution/LD6Neheretal2004.pdf Accessed date 02 March 2023. OIV. (2022). International Organisation of Vine and Wine. https://www.oiv.int/. Accessed date: 1 February, 2023.
Okada, H., Harada, H., & Kadota, I. (2005). Fungal-feeding habits of six nematode isolates in the genus Filenchus. Soil Biology and Biochemistry, 37:1113-1120.
Öztürk, L., Avcı, G., Behmand, T., & Elekçioğlu, İ, (2018). A nematode species, Mesocriconema xenoplax, Raski 1952, widely distributed in vineyards of Thrace Region of Turkey. Bahçe, 47(1):355-361 (in Turkish).
Pinkerton, J.N., Forge, T.A., Ivors, K.L., & Ingham, R.E. (1999). Plant-parasitic nematodes associated with grapevines, Vitis vinifera, in Oregon vineyards. Journal of nematology, 31(4S):624–634.
Saeed, M., Khan, S.A., Saeed, V.A., & Khan, H.A. (1988). Cephalobus litoralis: Biology and tolerance to desiccation. Journal of Nematology, 20(2):327–329.
Seinhorst, J.W. (1959). A rapid method for the transfer of nematodes from fixative to anhydrous glycerin. Nematologica, 4(1):67-69.
Siddiqi, M.R. (2000) Tylenchida: Parasites of Pplants and Insects. CAB International, Wallingford, UK, ISBN:978-0-85199-202-0, p 833.
Singh, K.S., Paini, R.D., Ash, J.G., & Hodda, M. (2013). Prioritising plant-parasitic nematode species biosecurity risks using self organising maps. Biological Invasions, 16(7):1515-1530.
Taher, I.E., Ami, S.N., Haleem, R.A., & Shareef, B. (2017). First record of mycetophagous nematode Aphelenchus avenae In Iraq with description and testing their propagation on different fungus culture. Bulletin of the Iraq Natural History Museum, 14:251-259.
Taylor, C.E., & Brown, D.J.F. (1997). Nematode vectors of plant viruses (CAB International). Wallingford: CAB International, ISBN-10: 0851991599, 296 p.
Téliz, D., Landa, B.B., Rapoport, H. F., Pérez Camacho, F., Jiménez-Díaz, R. M., & Castillo, P. (2007). Plant-parasitic nematodes infecting grapevine in Southern Spain and susceptible reaction to root-knot nematodes of rootstocks reported as moderately resistant. Plant Disease, 91:1147-1154.
Vega-Callo, R.A., Tamo-Zegarra, J.J. & y Bellé, C. (2021). Reacción de portainjertos y cultivares de vid a Meloidogyne incognita, M. arenaria y M. hapla. Agriscientia, 38:93-98.
Yeates, G.W., Bongers, T., de Goede, R.G.M., Freckman, D.W., & Georgieva, S.S. (1993). Feeding habits in soil nematode families and genera- an outline for soil ecologists. Journal of Nematology, 25:315-331.
Yıldız, Ş., İmren, M., & Duman, N. (2017). Nematode biodiversity in cereal growing areas of Bolu, Turkey. Turkish Journal of Entomology, 41 (2):159-168.
Wasilewska, L., Oloffs, P., & Webster, J. (2011). Effects of carbofuran and a PCB on development of a bacteriophagus nematode Acrobeloides nanus. Canadian Journal of Zoology, 53:1709-1715.

ISSN: 2717-882X
Yayın Aralığı: Yılda 3 Sayı
Başlangıç: 2020
Yayıncı: Tarım ve Orman Bakanlığı

Arşiv

Sayıdaki Diğer Makaleler

Micropropagation of Lisianthus [Eustoma grandiflorum (Raf.) Shinn.] Leaf Explants and Single Nodes in Response to Plant Growth Regulators

Hakan AKTAŞ, Gizem Gökçe AKKAYA, Ebru AKYÜZ ÇAĞDAŞ, Gülden HASPOLAT, Şeküre Şebnem ELLİALTIOĞLU

Determination of Insecticide Resistance in Western Flower Thrips [Frankliniella occidentalis (Pergande) (Thysanoptera: Thripidae)] Causing Problems in Carnation Cultivation

Musa KIRIŞIK, Tuba KAHRAMAN

Nematode Diversity Associated with Grapevines in İzmir, Manisa, Çanakkale, Balıkesir, and Bilecik Provinces in Türkiye

Lerzan ÖZTÜRK

Determination of the Efficiency of Moringa Leaf Extract Treatments on Seedling Vigor in Marigold

Kübra ÖZMEN, Fulya UZUNOĞLU, Emine ERĞAN, Kazım MAVİ

Improvement of Citrus Rootstock Hybrids Derived by 2x × 2x Intra Crosses with the Aid of Embryo Rescue and Ploidy Detection

Şenay KURT, Fatma KOYUNCU