Dr. Nakorn Jongrungklang
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Dr. Nakorn Jongrungklang

Associate Professor
Department of Agronomy, Faculty of Agriculture, Khon Kaen University, Thailand


Highest Degree
Ph.D. in Agronomy from Khon Kaen University, Thailand

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Area of Interest:

Agricultural Sciences
100%
Agronomy
62%
Crop Botany
90%
Plant Physiology
75%
Sugarcane Agronomy
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
45
Abstracts
0

Selected Publications

  1. Khamrit, R. and N. Jongrungkl, 2022. In vitro tissue culture techniques and colchicine-induced polyploidy in banana (Musa, AA Group) 'Kluai Khai'. Asian J. Plant Sci., 21: 111-118.
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  2. Jumkudling, S., P. Songsri, W. Taratima and N. Jongrungklang, 2022. Diversity and distribution of anatomical characteristics involved with drought resistance of inter-specific (Saccharum spp. hybrid × S. Spontaneum) sugarcane F1 hybrid population. Sugar Tech, 24: 1342-1356.
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  3. Taratima, W., T. Ritmaha, N. Jongrungklang and P. Maneerattanarungroj, 2021. Leaf anatomical adaptation under early drought stress of sugarcane cultivars-KKU-1999-02 and KKU-1999-03. Acta Agrobotanica, Vol. 74. 10.5586/aa.7419.
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  4. Khonghintaisong, J., P. Songsri and N. Jongrungklang, 2021. Understanding growth rate patterns among different drought resistant sugarcane cultivars during plant and ratoon crops encountered water deficit at early growth stage under natural field conditions. Agronomy, Vol. 11. 10.3390/agronomy11102083.
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  5. Songsri, P., J. Nata, N.A. Bootprom and N. Jongrungklang, 2020. Performances of elite sugarcane genotypes for agro-physiological traits in relation to yield potential and ratooning ability under rain-fed conditions. J. Agron., 19: 1-13.
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  6. Khonghintaisong, J., P. Songsri and N. Jongrungklang, 2020. Root characteristics of individual tillers and the relationships with above-ground growth and dry matter accumulation in sugarcane. Pak. J. Bot., 52: 101-109.
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  7. Chapae, C., P. Songsri, W. Kaewpradit, N. Jongrungklang and S. Gonkhamdee, 2020. Suitable planting materials and nutrient concentrations for investigating sugarcanes under hydroponic system Int. J. of Bot., 16: 20-33.
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  8. Juntahum S., N. Jongrungklang, W. Kaewpradit, S. Lumyong and S. Boonlue, 2019. Impact of arbuscular mycorrhizal fungi on growth and productivity of sugarcane under field conditions. Sugar Tech 10.1007/s12355-019-00784-z http://dx.doi.org/10.1007/s12355-019-00784-z.
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  9. Chumphu, S., N. Jongrungklang and P. Songsri, 2019. Association of physiological responses and root distribution patterns of ratooning ability and yield of the second ratoon cane in sugarcane elite clones. Agronomy, Vol. 9, No. 4. 10.3390/agronomy9040200.
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  10. Chapae, C., P. Songsri and N. Jongrungklang, 2019. Hydroponics: An alternative method for root and shoot classification on sugarcane genotypes. Agrivita, 41: 351-363.
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  11. Thangthong, N., S. Jogloy, N. Jongrungklang, T. Kesmala and N. Vorasoot, 2018. Root distribution patterns of peanut genotypes with different drought resistance levels under early‐season drought stress. J. Agron. Crop Sci., 204: 111-122.
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  12. Pinta, W., N. Vorasoot, N. Jongrungklang, T. Toojinda and J. Sanitchon, 2018. Root responses in chromosome segment substitution lines of rice ‘KDML105’ under early drought stress. Chilean J. Agric. Res., 78: 238-254.
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  13. Khruengpatee, J., J. Khonghintaisong, P. Songsri and N. Jongrungklang, 2018. Root characteristics of sugarcane cuttings derived from different stalk parts and their relationships with plant growth. Asian J. Plant Sci., 17: 204-212.
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  14. Khonghintaisong, J., P. Songsri, B. Toomsan and N. Jongrungklang, 2018. Rooting and physiological trait responses to early drought stress of sugarcane cultivars. Sugar Tech, 20: 396-406.
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  15. Jongrungklang, N., P. Maneerattanarungroj, S. Jogloy, P. Songsri and P. Jaisil, 2018. Understanding lodging resistant traits from diverse sugarcane lines. Philippine J. Crop Sci., 43: 71-80.
  16. Dissatian, A., J. Sanitchon, P. Pongdontri, N. Jongrungklang and D. Jothityangkoon, 2018. Potential of wood vinegar for enhancing seed germination of three upland rice varieties by suppressing malondialdehyde production. AGRIVITA: J. Agric. Sci., 40: 371-380.
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  17. Sengxua P., B.K. Samson, C. Bounphanousay, S. Xayavong, K. Douangboupha, D. Harnpichitvitaya, T.M. Jackson and L.J. Wade, 2017. Adaptation of rice (oryza sativa l.) genotypes in the rainfed lowlands of lao pdr. Plant Production Science 20: 477-484.
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  18. Pinta, W., N. Vorasoot, N. Jongrungklang, T. Toojinda and J. Sanitchon, 2017. Evaluation of Khao Dawk Mali 105 chromosome segment substitution lines possessing various drought tolerance QTLs under drought stress. SABRAO J. Breed. Genet., 49: 361-367.
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  19. Singkham, N., P. Songsri, P. Jaisil, S. Jogloy, P. Klomsa-Ard, N. Jonglangklang and A. Patanothai, 2016. Diversity of characteristics associated with lodging resistance in sugarcane germplasm. SABRAO J. Breed. Genet., 48: 97-104.
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  20. Junjittakarn, J., S. Jogloy, N. Vorasoot and N. Jongrungklang, 2016. Root responses and relationship to pod yield in difference peanut genotypes (Arachis hypogaea L.) under mid-season drought. SABRAO J. Breed. Genet., 48: 332-343.
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  21. Jongrungklang, N., S. Jogloy, T. Kesmala, N. Vorasoot and A. Patanothai, 2014. Responses of rooting traits in peanut genotypes under pre-flowering drought stress. Int. J. Plant Prod., 8: 335-352.
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  22. Koolachart, R., B. Suriharn, S. Jogloy, N. Vorasoot and S. Wongkaew et al., 2013. Relationships between physiological traits and yield components of peanut genotypes with different levels of terminal drought resistance. SABRAO J. Breed. Genet., 45: 422-446.
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  23. Koolachart, R. S. Jogloy, N. Vorasoot, S. Wongkaew and C.C. Holbrook et al., 2013. Rooting traits of peanut genotypes with different yield responses to terminal drought. Field Crops Res., 149: 366-378.
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  24. Jongrungklang, N., B. Toomsan, N. Vorasoot, S. Jogloy, K.J. Boote, G. Hoogenboom and A. Patanothai, 2013. Drought tolerance mechanisms for yield responses to pre-flowering drought stress of peanut genotypes with different drought tolerant levels. Field Crops Res., 144: 34-42.
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  25. Jongrungklang, N., 2013. Crop growth modeling: A novel way to supplement conventional trial. Khon Kaen AGR. J., 41: 359-368.
  26. Jongrungklang, N., B. Toomsan, N. Vorasoot, S. Jogloy, K.J. Boote, G. Hoogenboom and A. Patanothai, 2012. Classification of root distribution patterns and their contributions to yield in peanut genotypes under mid-season drought stress. Field Crops Res., 127: 181-190.
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  27. Jongrungklang, N., B. Toomsan, N. Vorasoot, S. Jogloy, K.J. Boote, G. Hoogenboom and A. Patanothai, 2011. Rooting traits of peanut genotypes with different yield responses to pre-flowering drought stress. Field Crops Res., 120: 262-270.
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  28. Jongrungklang, N., B. Toomsan, N. Vorasoot, S. Jogloy, T. Kesmala and A. Patanothai, 2008. Identification of peanut genotypes with high water use efficiency under drought stress conditions from peanut germplasm of diverse origins. Asian J. Plant Sci., 7: 628-638.
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