Title | Author | Year | SCOPUS | PUBMED | ISI | TCI | |
---|---|---|---|---|---|---|---|
1. | Evaluation of the CSM-CROPGRO-peanut model in simulating responses of two peanut cultivars to different moisture regimes | Dangthaisong, P. Banterng, P. Jogloy, S.S. Vorasoot, N. Patanothai, A. |
2006 | ||||
2. | Gene effects for parameters of Peanut bud necrosis virus (PBNV) resistance in peanut | Poledate, A. Laohasiriwong, S. Jaisil, P. Vorasoot, N. Jogloy, S.S. Kesmala, T. Patanothai, A. |
2007 | ||||
3. | Chlorophyll stability is an indicator of drought tolerance in peanut | Arunyanark, A. Jogloy, S.S. Akkasaeng, C. Vorasoot, N. Kesmala, T. Patanothai, A. |
2008 | ||||
4. | Effect of drought stress on traits related to N2 fixation in eleven peanut (Arachis hypogaea L.) genotypes differing in degrees of resistance to drought | Pimratch, S. Jogloy, S.S. Vorasoot, N. Toomsan, B. Kesmala, T. Patanothai, A. |
2008 | ||||
5. | Heritability of drought resistance traits and correlation of drought resistance and agronomic traits in peanut | Songsri, P. Jogloy, S.S. Kesmala, T. Vorasoot, N. Akkasaeng, C. Patanothai, A. |
2008 | ||||
6. | Identification of peanut genotypes with high water use efficiency under drought stress conditions from peanut germplasm of diverse origins | Jongrungklang, N. Toomsan, B. Vorasoot, N. Jogloy, S.S. Kesmala, T. Patanothai, A. |
2008 | ||||
7. | Relationship between biomass production and nitrogen fixation under drought-stress conditions in peanut genotypes with different levels of drought resistance | Pimratch, S. Jogloy, S.S. Vorasoot, N. Toomsan, B. Patanothai, A. |
2008 | ||||
8. | Response of reproductive characters of drought resistant peanut genotypes to drought | Songsri, P. Jogloy, S.S. Kesmala, T. Vorasoot, N. Akkasaeng, C. Patanothai, A. |
2008 | ||||
9. | Root distribution of drought-resistant peanut genotypes in response to drought | Songsri, P. Jogloy, S.S. Vorasoot, N. Akkasaeng, C. Patanothai, A. |
2008 | ||||
10. | Association between aflatoxin contamination and drought tolerance traits in peanut | Arunyanark, A. Jogloy, S.S. Akkasaeng, C. Vorasoot, N. Rachaputi, R.C.N. Patanothai, A. |
2009 | ||||
11. | Association of root dry weight and transpiration efficiency of peanut genotypes under early season drought | Puangbut, D. Jogloy, S.S. Vorasoot, N. Akkasaeng, C. Kesmala, T. Rachaputi, R.C.N. Patanothai, A. |
2009 | ||||
12. | Association of root, specific leaf area and SPAD chlorophyll meter reading to water use efficiency of peanut under different available soil water | Songsri, P. Jogloy, S.S. Kesmala, T. Vorasoot, N. Akkasaeng, C. Patanothai, A. |
2009 | ||||
13. | Evaluation of yield and reproductive efficiency in peanut (Arachis hypogaea L.) under different available soil water | Songsri, P. Vorasoot, N. Jogloy, S.S. Kesmala, T. Akkasaeng, C. Patanothai, A. |
2009 | ||||
14. | Heritability of n2 fixation traits, and phenotypic and genotypic correlations between n2 fixation traits with drought resistance traits and yield in peanut | Pimratch, S. Jogloy, S.S. Vorasoot, N. Toomsan, B. Kesmala, T. Patanothai, A. |
2009 | ||||
15. | Stability of relationship between chlorophyll density and soil plant analysis development chlorophyll meter readings in peanut across different drought stress conditions | Arunyanark, A. Jogloy, S.S. Vorasoot, N. Akkasaeng, C. Kesmala, T. Patanothai, A. |
2009 | ||||
16. | Variability in yield responses of peanut (Arachis hypogaea L.) genotypes under early season drought | Puangbut, D. Jogloy, S.S. Vorasoot, N. Akkasaeng, C. Kesmala, T. Patanothai, A. |
2009 | ||||
17. | Associations between physiological traits for drought tolerance and aflatoxin contamination in peanut genotypes under terminal drought | Girdthai, T. Jogloy, S.S. Vorasoot, N. Akkasaeng, C. Patanothai, A. |
2010 | ||||
18. | Effects of drought on characters related to Nitrogen fixation in peanut | Pimratch, S. Jogloy, S.S. Vorasoot, N. Toomsan, B. Kesmala, T. Patanothai, A. |
2010 | ||||
19. | Evaluation of peanut cultivars commonly grown in Thailand under water limited conditions | Boontang, S. Songsri, P. Jogloy, S.S. Akkasaeng, C. Vorasoot, N. Tantisuwichwong, N. Patanothai, A. |
2010 | ||||
20. | Heritability of aflatoxin resistance traits and correlation with drought tolerance traits in peanut | Arunyanark, A. Jogloy, S.S. Akkasaeng, C. Vorasoot, N. Kesmala, T. Patanothai, A. |
2010 | ||||
21. | Heritability of, and genotypic correlations between, aflatoxin traits and physiological traits for drought tolerance under end of season drought in peanut (Arachis hypogaea L.) | Girdthai, T. Jogloy, S.S. Vorasoot, N. Akkasaeng, C. Patanothai, A. |
2010 | ||||
22. | Physiological basis for genotypic variation in tolerance to and recovery from pre-flowering drought in peanut | Puangbut, D. Jogloy, S.S. Toomsan, B. Vorasoot, N. Akkasaeng, C. Kesmala, T. Rachaputi, R.C.N. Patanothai, A. |
2010 | ||||
23. | Relationship between root characteristics of peanut in hydroponics and pot studies | Girdthai, T. Jogloy, S.S. Kesmala, T. Vorasoot, N. Akkasaeng, C. Patanothai, A. |
2010 | ||||
24. | Responses of released cultivars of peanut to terminal drought for traits related to drought tolerance | Boontang, S. Girdthai, T. Jogloy, S.S. Akkasaeng, C. Vorasoot, N. Patanothai, A. Tantisuwichwong, N. |
2010 | ||||
25. | Association of transpiration efficiency with N2 fixation of peanut under early season drought | Puangbut, D. Jogloy, S.S. Vorasoot, N. Akkasaeng, C. Patanothai, A. |
2011 | ||||
26. | Heritability of early season drought resistance traits and genotypic correlation of early season drought resistance and agronomic traits in peanut | Puangbut, D. Jogloy, S.S. Kesmala, T. Vorasoot, N. Akkasaeng, C. Patanothai, A. Puppala, N. |
2011 | ||||
27. | Rapid assessment of inulin content in Helianthus tuberosus L. tubers | Puangbut, D. Jogloy, S.S. Srijaranai, S. Vorasoot, N. Kesmala, T. Patanothai, A. |
2011 | ||||
28. | Rooting traits of peanut genotypes with different yield responses to pre-flowering drought stress | Jongrungklang, N. Toomsan, B. Vorasoot, N. Jogloy, S.S. Patanothai, A. |
2011 | ||||
29. | Classification of root distribution patterns and their contributions to yield in peanut genotypes under mid-season drought stress | Jongrungklang, N. Toomsan, B. Vorasoot, N. Jogloy, S.S. Patanothai, A. |
2012 | ||||
30. | Influence of planting date and temperature on inulin content in Jerusalem artichoke (Helianthus tuberosus L.) | Puangbut, D. Jogloy, S.S. Vorasoot, N. Srijaranai, S. Kesmala, T. Holbrook, C.C. Patanothai, A. |
2012 | ||||
31. | Inheritance of the physiological traits for drought resistance under terminal drought conditions and genotypic correlations with agronomic traits in peanut | Girdthai, T. Jogloy, S.S. Vorasoot, N. Akkasaeng, C. Patanothai, A. |
2012 | ||||
32. | Relationship between chlorophyll density and spad chlorophyll meter reading for Jerusalem artichoke (Helianthus tuberosus L.) | Ruttanaprasert, R. Jogloy, S.S. Vorasoot, N. Kesmala, T. Kanwar, R.S. Patanothai, A. |
2012 | ||||
33. | Rooting patterns of four crop legumes in response to seed-placement depths in the dry season | Buakum, B. Limpinuntana, V. Vorasoot, N. Pannangpetch, K. |
2012 | ||||
34. | Association of nitrogen fixation to water uses efficiency and yield traits of peanut | Pimratch, S. Jogloy, S.S. Vorasoot, N. Toomsan, B. Kesmala, T. Patanothai, A. |
2013 | ||||
35. | Association of stomatal conductance and root distribution with water use efficiency of peanut under different soil water regimes | Songsri, P. Jogloy, S.S. Junjittakarn, J. Kesmala, T. Vorasoot, N. Patanothai, A. |
2013 | ||||
36. | Biological nitrogen fixation of peanut genotypes with different levels of drought tolerance under mid-season drought | Dinh, H.T. Kaewpradit, W. Jogloy, S.S. Vorasoot, N. Patanothai, A. |
2013 | ||||
37. | Drought tolerance mechanisms for yield responses to pre-flowering drought stress of peanut genotypes with different drought tolerant levels | Jongrungklang, N. Toomsan, B. Vorasoot, N. Jogloy, S.S. Patanothai, A. |
2013 | ||||
38. | Genetic diversity of water use efficiency in jerusalem artichoke (Helianthus tuberosus L.) germplasm | Janket, A. Jogloy, S.S. Vorasoot, N. Kesmala, T. Patanothai, A. |
2013 | ||||
39. | Is deep sowing beneficial for dry season cropping without irrigation on sandy soil with shallow water table? | Buakum, B. Limpinuntana, V. Vorasoot, N. Pannangpetch, K. |
2013 | ||||
40. | Nutrient uptake of peanut genotypes under different water regimes | Junjittakarn, J. Pimratch, S. Jogloy, S.S. Htoon, W. Singkham, N. Vorasoot, N. Toomsan, B. Patanothai, A. |
2013 | ||||
41. | Photoperiod and growing degree days effect on dry matter partitioning in Jerusalem artichoke | Ruttanaprasert, R. Jogloy, S.S. Vorasoot, N. Kesmala, T. Kanwar, R.S. Patanothai, A. |
2013 | ||||
42. | Relationships between physiological traits and yield components of peanut genotypes with different levels of terminal drought resistance | Koolachart, R. Suriharn, B. Jogloy, S.S. Vorasoot, N. Jongrungklang, N. Kesmala, T. Patanothai, A. |
2013 | ||||
43. | Relationships between root traits and nutrient uptake and nitrogen fixation in peanut under terminal drought | Htoon, W. Kaewpradit, W. Jogloy, S.S. Vorasoot, N. Toomsan, B. Akkasaeng, C. Puppala, N. Patanothai, A. |
2013 | ||||
44. | Response of reproductive parts of peanut genotypic variation and their contributions to yield after pre-flowering drought | Puangbut, D. Jogloy, S.S. Vorasoot, N. Kesmala, T. Patanothai, A. |
2013 | ||||
45. | Responses of peanut (Arachis hypogaea L.) genotypes to N2-fixation under terminal drought and their contributions to peanut yield | Htoon, W. Kaewpradit, W. Jogloy, S.S. Vorasoot, N. Toomsan, B. Akkasaeng, C. Puppala, N. Patanothai, A. |
2013 | ||||
46. | Rooting traits of peanut genotypes with different yield responses to terminal drought | Koolachart, R. Jogloy, S.S. Vorasoot, N. Jongrungklang, N. Kesmala, T. Patanothai, A. |
2013 | ||||
47. | Soil moisture affects fatty acids and oil quality parameters in peanut | Jogloy, S.S. Chaiyadee, S. Songsri, P. Singkham, N. Vorasoot, N. Sawatsitang, P. Patanothai, A. |
2013 | ||||
48. | Genotypic variability for tuber yield, biomass, and drought tolerance in Jerusalem artichoke germplasm | Ruttanaprasert, R. Banterng, P. Jogloy, S.S. Vorasoot, N. Kesmala, T. Kanwar, R.S. Patanothai, A. |
2014 | ||||
49. | Nutrient uptake of peanut genotypes with different levels of drought tolerance under midseason drought | Dinh, H.T. Kaewpradit, W. Jogloy, S.S. Vorasoot, N. Patanothai, A. |
2014 | ||||
50. | Nutrient uptakes and their contributions to yield in peanut genotypes with different levels of terminal drought resistance | Htoon, W. Jogloy, S.S. Vorasoot, N. Toomsan, B. Kaewpradit, W. Puppala, N. Patanothai, A. |
2014 | ||||
51. | Pre-chill with gibberellic acid overcomes seed dormancy of Jerusalem artichoke | Puttha, R. Goggi, A.S. Gleason, M.L. Jogloy, S.S. Kesmala, T. Vorasoot, N. Banterng, P. Patanothai, A. |
2014 | ||||
52. | Response of root characteristics and yield in peanut under terminal drought condition | Junjittakarn, J. Girdthai, T. Jogloy, S.S. Vorasoot, N. Patanothai, A. |
2014 | ||||
53. | Responses of rooting traits in peanut genotypes under pre-flowering drought stress | Jongrungklang, N. Jogloy, S.S. Kesmala, T. Vorasoot, N. Patanothai, A. |
2014 | ||||
54. | Root responses of Jerusalem artichoke genotypes to different water regimes | Ruttanaprasert, R. Jogloy, S.S. Vorasoot, N. Kesmala, T. Kanwar, R.S. Holbrook, C.C. Patanothai, A. |
2015 | ||||
55. | Variation of inulin content, inulin yield and water use efficiency for inulin yield in Jerusalem artichoke genotypes under different water regimes | Puangbut, D. Jogloy, S.S. Vorasoot, N. Srijaranai, S. Holbrook, C.C. Patanothai, A. |
2015 | ||||
56. | Diversity of physiological traits in Jerusalem artichoke genotypes under non-stress and drought stress | Ruttanaprasert, R. Banterng, P. Jogloy, S.S. Vorasoot, N. Kesmala, T. Patanothai, A. |
2016 | ||||
57. | Effect of end of season water deficit on phenolic compounds in peanut genotypes with different levels of resistance to drought | Jogloy, S.S. Vorasoot, N. Patanothai, A. Nuchadomrong, S. Senawong, T. |
2016 | ||||
58. | Effect of mid season drought on phenolic compounds in peanut genotypes with different levels of resistance to drought | Jogloy, S.S. Vorasoot, N. Nuchadomrong, S. Senawong, T. Patanothai, A. |
2016 | ||||
59. | Association of photosynthetic traits with water use efficiency and SPAD chlorophyll meter reading of Jerusalem artichoke under drought conditions | Puangbut, D. Jogloy, S.S. Vorasoot, N. |
2017 | ||||
60. | Change of arginine content and some physiological traits under midseason drought in peanut genotypes with different levels of drought resistance | Jogloy, S.S. Vorasoot, N. Nuchadomrong, S. Patanothai, A. |
2017 | ||||
61. | Effects of terminal drought on growth, yield and yield components in valencia peanut genotypes | Vorasoot, N. Puppala, N. Jogloy, S.S. |
2017 | ||||
62. | Evaluation of Khao Dawk Mali 105 chromosome segment substitution lines possessing various drought tolerance QTLs under drought stress | Vorasoot, N. Jongrungklang, N. Sanitchon, J. |
2017 | ||||
63. | Variability of arginine content and yield components in Valencia peanut germplasm | Jogloy, S.S. Vorasoot, N. Nuchadomrong, S. Puppala, N. Patanothai, A. |
2017 | ||||
64. | Chlorophyll fluorescence and biomass of four cassava genotypes grown under rain-fed upper paddy field conditions in the tropics | Banterng, P. Jogloy, S.S. Vorasoot, N. |
2018 | ||||
65. | Influence of zinc, copper and manganese on dry matter yield and physiological traits of three cassava genotypes grown on soil micronutrient deficiencies | Janket, A. Vorasoot, N. Kesmala, T. Jogloy, S.S. |
2018 | ||||
66. | Root distribution pattern and their contribution in photosynthesis and biomass in jerusalem artichokeunder drought conditions | Puangbut, D. Jogloy, S.S. Vorasoot, N. |
2018 | ||||
67. | Root distribution patterns of peanut genotypes with different drought resistance levels under early-season drought stress | Jogloy, S.S. Jongrungklang, N. Pensuk, V. Kesmala, T. Vorasoot, N. |
2018 | ||||
68. | Root responses in chromosome segment substitution lines of rice ‘KDML105’ under early drought stress | Vorasoot, N. Jongrungklang, N. Sanitchon, J. |
2018 | ||||
69. | Seasonal variation in photosynthesis performance of cassava at two different growth stages under irrigated and rain-fed conditions in a tropical savanna climate | Banterng, P. Jogloy, S.S. Vorasoot, N. Theerakulpisut, P. |
2018 | ||||
70. | Seasonal variation in starch accumulation and starch granule size in cassava genotypes in a tropical savanna climate | Janket, A. Vorasoot, N. Toomsan, B. Kaewpradit, W. Banterng, P. Kesmala, T. Theerakulpisut, P. Jogloy, S.S. |
2018 | ||||
71. | Association of aflatoxin contamination and root traits of peanut genotypesunder terminal drought | Koolachart, R. Jogloy, S.S. Vorasoot, N. Jongrungklang, N. Kesmala, T. Suriharn, B. |
2019 | ||||
72. | Cassava growth analysis of production during the off-season of paddy rice | Banterng, P. Jogloy, S.S. Vorasoot, N. |
2019 | ||||
73. | Changes in Root Anatomy of Peanut (Arachis hypogaea L.) under Different Durations of Early Season Drought | Jogloy, S.S. Kesmala, T. Vorasoot, N. |
2019 | ||||
74. | Diurnal and seasonal variations in the photosynthetic performance and chlorophyll fluorescence of cassava ‘rayong 9’ under irrigated and rainfed conditions | Banterng, P. Jogloy, S.S. Vorasoot, N. Theerakulpisut, P. |
2019 | ||||
75. | Effect of terminal drought on arginine content in peanut genotypes with difference in levels of drought resistance | Jogloy, S.S. Vorasoot, N. Nuchadomrong, S. Patanothai, A. |
2019 | ||||
76. | Endophytic Bacteria Improve Root Traits, Biomass and Yield of Helianthus tuberosus L. Under normal and deficit water conditions | Jogloy, S.S. Vorasoot, N. Boonlue, S. Mongkolthanaruk, W. |
2019 | ||||
77. | Growth rates and yields of cassava at different planting dates in a tropical savanna climate | Banterng, P. Vorasoot, N. Jogloy, S.S. Theerakulpisut, P. |
2019 | ||||
78. | Leaf performances of cassava genotypes in different seasons and its relationship with biomass | Banterng, P. Vorasoot, N. Jogloy, S.S. Theerakulpisut, P. |
2019 | ||||
79. | Relationships between nutrient uptake and nitrogen fixation with aflatoxin contamination in peanut under terminal drought | Htoon, W. Kaewpradit, W. Vorasoot, N. Toomsan, B. Akkasaeng, C. Puppala, N. Jogloy, S.S. |
2019 | ||||
80. | Seasonal variations in canopy size and yield of Rayong 9 cassava genotype under rainfed and irrigated conditions | Jogloy, S.S. Vorasoot, N. Theerakulpisut, P. Banterng, P. Kesmala, T. |
2019 | ||||
81. | The impact of seasonal environments in a tropical savanna climate on forking, leaf area index, and biomass of cassava genotypes | Banterng, P. Vorasoot, N. Jogloy, S.S. Theerakulpisut, P. |
2019 | ||||
82. | Accumulation dynamics of starch and its granule size distribution of cassava genotypes at different growing seasons | Janket, A. Vorasoot, N. Toomsan, B. Kaewpradit, W. Theerakulpisut, P. Jogloy, S.S. Banterng, P. |
2020 | ||||
83. | Physiology, growth and yield of different cassava genotypes planted in upland with dry environment during high storage root accumulation stage | Banterng, P. Vorasoot, N. Jogloy, S.S. Theerakulpisut, P. |
2020 | ||||
84. | Responses of total biomass, shoot dry weight, yield and yield components of jerusalem artichoke (Helianthus tuberosus l.) varieties under different terminal drought duration | Jogloy, S.S. Vorasoot, N. Toomsan, B. Jongrungklang, N. Kesmala, T. |
2020 | ||||
85. | Seasonal variation in canopy size, light penetration and photosynthesis of three cassava genotypes with different canopy architectures | Jogloy, S.S. Vorasoot, N. Theerakulpisut, P. Banterng, P. |
2020 | ||||
86. | Starch accumulation and granule size distribution of cassava cv. Rayong 9 grown under irrigated and rainfed conditions using different growing seasons | Janket, A. Vorasoot, N. Toomsan, B. Kaewpradit, W. Jogloy, S.S. Theerakulpisut, P. Banterng, P. |
2020 | ||||
87. | Starch accumulation of cassava genotypes grown in paddy fields during off-season | Banterng, P. Jogloy, S.S. Vorasoot, N. |
2020 | ||||
88. | Changes in root xylem anatomy of peanut genotypes with different drought resistance levels under early-season drought | Jogloy, S.S. Jongrungklang, N. Vorasoot, N. |
2021 | ||||
89. | Growth enhancement of sunchoke by arbuscular mycorrhizal fungi under drought condition | Mongkolthanaruk, W. Jogloy, S.S. Vorasoot, N. Boonlue, S. |
2021 | ||||
90. | Identifying suitable genotypes for different cassava production environments-a modeling approach | Banterng, P. Vorasoot, N. Jogloy, S.S. Theerakulpisut, P. |
2021 | ||||
91. | Nutrient uptake and nutrient use efficiency of cassava genotypes with different starch bulking periods as affected by different planting dates | Janket, A. Jogloy, S.S. Vorasoot, N. Toomsan, B. Kaewpradit, W. Theerakulpisut, P. Banterng, P. |
2021 | ||||
92. | Performance of a model in simulating growth and stability for cassava grown after rice | Banterng, P. Jogloy, S.S. Vorasoot, N. |
2021 | ||||
93. | Performance of the CSM–MANIHOT–Cassava model for simulating planting date response of cassava genotypes | Banterng, P. Vorasoot, N. Jogloy, S.S. Theerakulpisut, P. |
2021 | ||||
94. | Relationship between physiological and root traits of peanut genotypes under terminal drought stress | Aninbon, C. Jogloy, S.S. Vorasoot, N. Patanothai, A. |
2021 | ||||
95. | The variation of relative water content, SPAD chlorophyll meter reading, stomatal conductance, leaf area, and specific leaf area of Jerusalem artichoke genotypes under different durations of terminal drought in tropical region | Jogloy, S.S. Vorasoot, N. Laohasiriwong, S. |
2021 | ||||
96. | Capability of cassava model to determine biomass of two branching types at different plant spacings | Jongrungklang, N. Jogloy, S.S. Vorasoot, N. Banterng, P. |
2022 | ||||
97. | Light Interception and Radiation Use Efficiency of Cassava under Irrigated and Rainfed Conditions and Seasonal Variations | Mahakosee, S. Jogloy, S. Vorasoot, N. Theerakulpisut, P. Holbrook, C.C. Kvien, C.K. Banterng, P. |
2022 | ||||
98. | Photosynthetic and physiological responses to drought of Jerusalem artichoke genotypes differing in drought resistance | Puangbut, D. Jogloy, S.S. Vorasoot, N. Songsri, P. |
2022 | Count | 98 | 0 | 0 | 0 |
Title | Authors | Year | Publication name | Cited count | ||||||||
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< 2017 | 2018 | 2019 | 2020 | 2021 | 2022 | รวม | ||||||
1. | Evaluation of the CSM-CROPGRO-peanut model in simulating responses of two peanut cultivars to different moisture regimes | Dangthaisong, P. Banterng, P. Jogloy, S.S. Vorasoot, N. Patanothai, A. |
2006 |
Asian Journal of Plant Sciences 6 (5), pp. 913-922 |
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2. | Gene effects for parameters of Peanut bud necrosis virus (PBNV) resistance in peanut | Poledate, A. Laohasiriwong, S. Jaisil, P. Vorasoot, N. Jogloy, S.S. Kesmala, T. Patanothai, A. |
2007 |
Pakistan Journal of Biological Sciences 9 (10), pp. 1501-1506 |
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3. | Chlorophyll stability is an indicator of drought tolerance in peanut | Arunyanark, A. Jogloy, S.S. Akkasaeng, C. Vorasoot, N. Kesmala, T. Patanothai, A. |
2008 |
Journal of Agronomy and Crop Science 2 (194), pp. 113-125 |
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4. | Effect of drought stress on traits related to N2 fixation in eleven peanut (Arachis hypogaea L.) genotypes differing in degrees of resistance to drought | Pimratch, S. Jogloy, S.S. Vorasoot, N. Toomsan, B. Kesmala, T. Patanothai, A. |
2008 |
Asian Journal of Plant Sciences 4 (7), pp. 334-342 |
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5. | Heritability of drought resistance traits and correlation of drought resistance and agronomic traits in peanut | Songsri, P. Jogloy, S.S. Kesmala, T. Vorasoot, N. Akkasaeng, C. Patanothai, A. |
2008 |
Crop Science 6 (48), pp. 2245-2253 |
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6. | Identification of peanut genotypes with high water use efficiency under drought stress conditions from peanut germplasm of diverse origins | Jongrungklang, N. Toomsan, B. Vorasoot, N. Jogloy, S.S. Kesmala, T. Patanothai, A. |
2008 |
Asian Journal of Plant Sciences 7 (7), pp. 628-638 |
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7. | Relationship between biomass production and nitrogen fixation under drought-stress conditions in peanut genotypes with different levels of drought resistance | Pimratch, S. Jogloy, S.S. Vorasoot, N. Toomsan, B. Patanothai, A. |
2008 |
Journal of Agronomy and Crop Science 1 (194), pp. 15-25 |
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8. | Response of reproductive characters of drought resistant peanut genotypes to drought | Songsri, P. Jogloy, S.S. Kesmala, T. Vorasoot, N. Akkasaeng, C. Patanothai, A. |
2008 |
Asian Journal of Plant Sciences 5 (7), pp. 427-439 |
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9. | Root distribution of drought-resistant peanut genotypes in response to drought | Songsri, P. Jogloy, S.S. Vorasoot, N. Akkasaeng, C. Patanothai, A. |
2008 |
Journal of Agronomy and Crop Science 2 (194), pp. 92-103 |
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10. | Association between aflatoxin contamination and drought tolerance traits in peanut | Arunyanark, A. Jogloy, S.S. Akkasaeng, C. Vorasoot, N. Rachaputi, R.C.N. Patanothai, A. |
2009 |
Field Crops Research 1 (114), pp. 14-22 |
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11. | Association of root dry weight and transpiration efficiency of peanut genotypes under early season drought | Puangbut, D. Jogloy, S.S. Vorasoot, N. Akkasaeng, C. Kesmala, T. Rachaputi, R.C.N. Patanothai, A. |
2009 |
Agricultural Water Management 10 (96), pp. 1460-1466 |
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12. | Association of root, specific leaf area and SPAD chlorophyll meter reading to water use efficiency of peanut under different available soil water | Songsri, P. Jogloy, S.S. Kesmala, T. Vorasoot, N. Akkasaeng, C. Patanothai, A. |
2009 |
Agricultural Water Management 5 (96), pp. 790-798 |
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13. | Evaluation of yield and reproductive efficiency in peanut (Arachis hypogaea L.) under different available soil water | Songsri, P. Vorasoot, N. Jogloy, S.S. Kesmala, T. Akkasaeng, C. Patanothai, A. |
2009 |
Asian Journal of Plant Sciences 7 (8), pp. 465-473 |
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14. | Heritability of n2 fixation traits, and phenotypic and genotypic correlations between n2 fixation traits with drought resistance traits and yield in peanut | Pimratch, S. Jogloy, S.S. Vorasoot, N. Toomsan, B. Kesmala, T. Patanothai, A. |
2009 |
Crop Science 3 (49), pp. 791-800 |
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15. | Stability of relationship between chlorophyll density and soil plant analysis development chlorophyll meter readings in peanut across different drought stress conditions | Arunyanark, A. Jogloy, S.S. Vorasoot, N. Akkasaeng, C. Kesmala, T. Patanothai, A. |
2009 |
Asian Journal of Plant Sciences 2 (8), pp. 102-110 |
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16. | Variability in yield responses of peanut (Arachis hypogaea L.) genotypes under early season drought | Puangbut, D. Jogloy, S.S. Vorasoot, N. Akkasaeng, C. Kesmala, T. Patanothai, A. |
2009 |
Asian Journal of Plant Sciences 4 (8), pp. 254-264 |
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17. | Associations between physiological traits for drought tolerance and aflatoxin contamination in peanut genotypes under terminal drought | Girdthai, T. Jogloy, S.S. Vorasoot, N. Akkasaeng, C. Patanothai, A. |
2010 |
Plant Breeding 6 (129), pp. 693-699 |
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18. | Effects of drought on characters related to Nitrogen fixation in peanut | Pimratch, S. Jogloy, S.S. Vorasoot, N. Toomsan, B. Kesmala, T. Patanothai, A. |
2010 |
Asian Journal of Plant Sciences 7 (9), pp. 402-413 |
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19. | Evaluation of peanut cultivars commonly grown in Thailand under water limited conditions | Boontang, S. Songsri, P. Jogloy, S.S. Akkasaeng, C. Vorasoot, N. Tantisuwichwong, N. Patanothai, A. |
2010 |
Asian Journal of Plant Sciences 6 (9), pp. 320-328 |
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20. | Heritability of aflatoxin resistance traits and correlation with drought tolerance traits in peanut | Arunyanark, A. Jogloy, S.S. Akkasaeng, C. Vorasoot, N. Kesmala, T. Patanothai, A. |
2010 |
Field Crops Research 2-3 (117), pp. 258-264 |
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21. | Heritability of, and genotypic correlations between, aflatoxin traits and physiological traits for drought tolerance under end of season drought in peanut (Arachis hypogaea L.) | Girdthai, T. Jogloy, S.S. Vorasoot, N. Akkasaeng, C. Patanothai, A. |
2010 |
Field Crops Research 2 (118), pp. 169-176 |
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22. | Physiological basis for genotypic variation in tolerance to and recovery from pre-flowering drought in peanut | Puangbut, D. Jogloy, S.S. Toomsan, B. Vorasoot, N. Akkasaeng, C. Kesmala, T. Rachaputi, R.C.N. Patanothai, A. |
2010 |
Journal of Agronomy and Crop Science 5 (196), pp. 358-367 |
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23. | Relationship between root characteristics of peanut in hydroponics and pot studies | Girdthai, T. Jogloy, S.S. Kesmala, T. Vorasoot, N. Akkasaeng, C. Patanothai, A. |
2010 |
Crop Science 1 (50), pp. 159-167 |
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24. | Responses of released cultivars of peanut to terminal drought for traits related to drought tolerance | Boontang, S. Girdthai, T. Jogloy, S.S. Akkasaeng, C. Vorasoot, N. Patanothai, A. Tantisuwichwong, N. |
2010 |
Asian Journal of Plant Sciences 7 (9), pp. 423-431 |
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25. | Association of transpiration efficiency with N2 fixation of peanut under early season drought | Puangbut, D. Jogloy, S.S. Vorasoot, N. Akkasaeng, C. Patanothai, A. |
2011 |
International Journal of Plant Production 4 (5), pp. 381-393 |
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26. | Heritability of early season drought resistance traits and genotypic correlation of early season drought resistance and agronomic traits in peanut | Puangbut, D. Jogloy, S.S. Kesmala, T. Vorasoot, N. Akkasaeng, C. Patanothai, A. Puppala, N. |
2011 |
Sabrao Journal of Breeding and Genetics 2 (43), pp. 165-187 |
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27. | Rapid assessment of inulin content in Helianthus tuberosus L. tubers | Puangbut, D. Jogloy, S.S. Srijaranai, S. Vorasoot, N. Kesmala, T. Patanothai, A. |
2011 |
Sabrao Journal of Breeding and Genetics 2 (43), pp. 188-200 |
||||||||
28. | Rooting traits of peanut genotypes with different yield responses to pre-flowering drought stress | Jongrungklang, N. Toomsan, B. Vorasoot, N. Jogloy, S.S. Patanothai, A. |
2011 |
Field Crops Research 2 (120), pp. 262-270 |
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29. | Classification of root distribution patterns and their contributions to yield in peanut genotypes under mid-season drought stress | Jongrungklang, N. Toomsan, B. Vorasoot, N. Jogloy, S.S. Patanothai, A. |
2012 |
Field Crops Research (127), pp. 181-190 |
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30. | Influence of planting date and temperature on inulin content in Jerusalem artichoke (Helianthus tuberosus L.) | Puangbut, D. Jogloy, S.S. Vorasoot, N. Srijaranai, S. Kesmala, T. Holbrook, C.C. Patanothai, A. |
2012 |
Australian Journal of Crop Science 7 (6), pp. 1159-1165 |
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31. | Inheritance of the physiological traits for drought resistance under terminal drought conditions and genotypic correlations with agronomic traits in peanut | Girdthai, T. Jogloy, S.S. Vorasoot, N. Akkasaeng, C. Patanothai, A. |
2012 |
Sabrao Journal of Breeding and Genetics 2 (44), pp. 240-262 |
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32. | Relationship between chlorophyll density and spad chlorophyll meter reading for Jerusalem artichoke (Helianthus tuberosus L.) | Ruttanaprasert, R. Jogloy, S.S. Vorasoot, N. Kesmala, T. Kanwar, R.S. Patanothai, A. |
2012 |
Sabrao Journal of Breeding and Genetics 1 (44), pp. 149-162 |
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33. | Rooting patterns of four crop legumes in response to seed-placement depths in the dry season | Buakum, B. Limpinuntana, V. Vorasoot, N. Pannangpetch, K. |
2012 |
Acta Agriculturae Scandinavica Section B: Soil and Plant Science 1 (62), pp. 35-48 |
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34. | Association of nitrogen fixation to water uses efficiency and yield traits of peanut | Pimratch, S. Jogloy, S.S. Vorasoot, N. Toomsan, B. Kesmala, T. Patanothai, A. |
2013 |
International Journal of Plant Production 2 (7), pp. 225-242 |
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35. | Association of stomatal conductance and root distribution with water use efficiency of peanut under different soil water regimes | Songsri, P. Jogloy, S.S. Junjittakarn, J. Kesmala, T. Vorasoot, N. Patanothai, A. |
2013 |
Australian Journal of Crop Science 7 (7), pp. 948-955 |
||||||||
36. | Biological nitrogen fixation of peanut genotypes with different levels of drought tolerance under mid-season drought | Dinh, H.T. Kaewpradit, W. Jogloy, S.S. Vorasoot, N. Patanothai, A. |
2013 |
Sabrao Journal of Breeding and Genetics 3 (45), pp. 491-503 |
||||||||
37. | Drought tolerance mechanisms for yield responses to pre-flowering drought stress of peanut genotypes with different drought tolerant levels | Jongrungklang, N. Toomsan, B. Vorasoot, N. Jogloy, S.S. Patanothai, A. |
2013 |
Field Crops Research (144), pp. 34-42 |
||||||||
38. | Genetic diversity of water use efficiency in jerusalem artichoke (Helianthus tuberosus L.) germplasm | Janket, A. Jogloy, S.S. Vorasoot, N. Kesmala, T. Patanothai, A. |
2013 |
Australian Journal of Crop Science 11 (7), pp. 1670-1681 |
||||||||
39. | Is deep sowing beneficial for dry season cropping without irrigation on sandy soil with shallow water table? | Buakum, B. Limpinuntana, V. Vorasoot, N. Pannangpetch, K. |
2013 |
Experimental Agriculture 3 (49), pp. 366-381 |
||||||||
40. | Nutrient uptake of peanut genotypes under different water regimes | Junjittakarn, J. Pimratch, S. Jogloy, S.S. Htoon, W. Singkham, N. Vorasoot, N. Toomsan, B. Patanothai, A. |
2013 |
International Journal of Plant Production 4 (7), pp. 677-692 |
||||||||
41. | Photoperiod and growing degree days effect on dry matter partitioning in Jerusalem artichoke | Ruttanaprasert, R. Jogloy, S.S. Vorasoot, N. Kesmala, T. Kanwar, R.S. Patanothai, A. |
2013 |
International Journal of Plant Production 3 (7), pp. 393-416 |
||||||||
42. | Relationships between physiological traits and yield components of peanut genotypes with different levels of terminal drought resistance | Koolachart, R. Suriharn, B. Jogloy, S.S. Vorasoot, N. Jongrungklang, N. Kesmala, T. Patanothai, A. |
2013 |
Sabrao Journal of Breeding and Genetics 3 (45), pp. 422-446 |
||||||||
43. | Relationships between root traits and nutrient uptake and nitrogen fixation in peanut under terminal drought | Htoon, W. Kaewpradit, W. Jogloy, S.S. Vorasoot, N. Toomsan, B. Akkasaeng, C. Puppala, N. Patanothai, A. |
2013 |
Sabrao Journal of Breeding and Genetics 2 (45), pp. 311-323 |
||||||||
44. | Response of reproductive parts of peanut genotypic variation and their contributions to yield after pre-flowering drought | Puangbut, D. Jogloy, S.S. Vorasoot, N. Kesmala, T. Patanothai, A. |
2013 |
Australian Journal of Crop Science 11 (7), pp. 1627-1633 |
||||||||
45. | Responses of peanut (Arachis hypogaea L.) genotypes to N2-fixation under terminal drought and their contributions to peanut yield | Htoon, W. Kaewpradit, W. Jogloy, S.S. Vorasoot, N. Toomsan, B. Akkasaeng, C. Puppala, N. Patanothai, A. |
2013 |
Sabrao Journal of Breeding and Genetics 2 (45), pp. 296-310 |
||||||||
46. | Rooting traits of peanut genotypes with different yield responses to terminal drought | Koolachart, R. Jogloy, S.S. Vorasoot, N. Jongrungklang, N. Kesmala, T. Patanothai, A. |
2013 |
Field Crops Research (149), pp. 366-378 |
||||||||
47. | Soil moisture affects fatty acids and oil quality parameters in peanut | Jogloy, S.S. Chaiyadee, S. Songsri, P. Singkham, N. Vorasoot, N. Sawatsitang, P. Patanothai, A. |
2013 |
International Journal of Plant Production 1 (7), pp. 81-96 |
||||||||
48. | Genotypic variability for tuber yield, biomass, and drought tolerance in Jerusalem artichoke germplasm | Ruttanaprasert, R. Banterng, P. Jogloy, S.S. Vorasoot, N. Kesmala, T. Kanwar, R.S. Patanothai, A. |
2014 |
Turkish Journal of Agriculture and Forestry 4 (38), pp. 570-580 |
||||||||
49. | Nutrient uptake of peanut genotypes with different levels of drought tolerance under midseason drought | Dinh, H.T. Kaewpradit, W. Jogloy, S.S. Vorasoot, N. Patanothai, A. |
2014 |
Turkish Journal of Agriculture and Forestry 4 (38), pp. 495-505 |
||||||||
50. | Nutrient uptakes and their contributions to yield in peanut genotypes with different levels of terminal drought resistance | Htoon, W. Jogloy, S.S. Vorasoot, N. Toomsan, B. Kaewpradit, W. Puppala, N. Patanothai, A. |
2014 |
Turkish Journal of Agriculture and Forestry 6 (38), pp. 781-791 |
||||||||
51. | Pre-chill with gibberellic acid overcomes seed dormancy of Jerusalem artichoke | Puttha, R. Goggi, A.S. Gleason, M.L. Jogloy, S.S. Kesmala, T. Vorasoot, N. Banterng, P. Patanothai, A. |
2014 |
Agronomy for Sustainable Development 4 (34), pp. 869-878 |
||||||||
52. | Response of root characteristics and yield in peanut under terminal drought condition | Junjittakarn, J. Girdthai, T. Jogloy, S.S. Vorasoot, N. Patanothai, A. |
2014 |
Chilean Journal of Agricultural Research 3 (74), pp. 249-256 |
||||||||
53. | Responses of rooting traits in peanut genotypes under pre-flowering drought stress | Jongrungklang, N. Jogloy, S.S. Kesmala, T. Vorasoot, N. Patanothai, A. |
2014 |
International Journal of Plant Production 3 (8), pp. 335-352 |
||||||||
54. | Root responses of Jerusalem artichoke genotypes to different water regimes | Ruttanaprasert, R. Jogloy, S.S. Vorasoot, N. Kesmala, T. Kanwar, R.S. Holbrook, C.C. Patanothai, A. |
2015 |
Biomass and Bioenergy (81), pp. 369-377 |
||||||||
55. | Variation of inulin content, inulin yield and water use efficiency for inulin yield in Jerusalem artichoke genotypes under different water regimes | Puangbut, D. Jogloy, S.S. Vorasoot, N. Srijaranai, S. Holbrook, C.C. Patanothai, A. |
2015 |
Agricultural Water Management (152), pp. 142-150 |
||||||||
56. | Diversity of physiological traits in Jerusalem artichoke genotypes under non-stress and drought stress | Ruttanaprasert, R. Banterng, P. Jogloy, S.S. Vorasoot, N. Kesmala, T. Patanothai, A. |
2016 |
Pakistan Journal of Botany 1 (48), pp. 11-20 |
||||||||
57. | Effect of end of season water deficit on phenolic compounds in peanut genotypes with different levels of resistance to drought | Jogloy, S.S. Vorasoot, N. Patanothai, A. Nuchadomrong, S. Senawong, T. |
2016 |
Food Chemistry (196), pp. 123-129 |
||||||||
58. | Effect of mid season drought on phenolic compounds in peanut genotypes with different levels of resistance to drought | Jogloy, S.S. Vorasoot, N. Nuchadomrong, S. Senawong, T. Patanothai, A. |
2016 |
Field Crops Research (187), pp. 127-134 |
||||||||
59. | Association of photosynthetic traits with water use efficiency and SPAD chlorophyll meter reading of Jerusalem artichoke under drought conditions | Puangbut, D. Jogloy, S.S. Vorasoot, N. |
2017 |
Agricultural Water Management (188), pp. 29-35 |
||||||||
60. | Change of arginine content and some physiological traits under midseason drought in peanut genotypes with different levels of drought resistance | Jogloy, S.S. Vorasoot, N. Nuchadomrong, S. Patanothai, A. |
2017 |
Turkish Journal of Agriculture and Forestry 4 (41), pp. 285-293 |
||||||||
61. | Effects of terminal drought on growth, yield and yield components in valencia peanut genotypes | Vorasoot, N. Puppala, N. Jogloy, S.S. |
2017 |
Sabrao Journal of Breeding and Genetics 3 (49), pp. 270-279 |
||||||||
62. | Evaluation of Khao Dawk Mali 105 chromosome segment substitution lines possessing various drought tolerance QTLs under drought stress | Vorasoot, N. Jongrungklang, N. Sanitchon, J. |
2017 |
Sabrao Journal of Breeding and Genetics 4 (49), pp. 361-367 |
||||||||
63. | Variability of arginine content and yield components in Valencia peanut germplasm | Jogloy, S.S. Vorasoot, N. Nuchadomrong, S. Puppala, N. Patanothai, A. |
2017 |
Breeding Science 3 (67), pp. 207-212 |
||||||||
64. | Chlorophyll fluorescence and biomass of four cassava genotypes grown under rain-fed upper paddy field conditions in the tropics | Banterng, P. Jogloy, S.S. Vorasoot, N. |
2018 |
Journal of Agronomy and Crop Science 6 (204), pp. 554-565 |
||||||||
65. | Influence of zinc, copper and manganese on dry matter yield and physiological traits of three cassava genotypes grown on soil micronutrient deficiencies | Janket, A. Vorasoot, N. Kesmala, T. Jogloy, S.S. |
2018 |
Pakistan Journal of Botany 5 (50), pp. 1719-1725 |
||||||||
66. | Root distribution pattern and their contribution in photosynthesis and biomass in jerusalem artichokeunder drought conditions | Puangbut, D. Jogloy, S.S. Vorasoot, N. |
2018 |
Pakistan Journal of Botany 3 (50), pp. 879-886 |
||||||||
67. | Root distribution patterns of peanut genotypes with different drought resistance levels under early-season drought stress | Jogloy, S.S. Jongrungklang, N. Pensuk, V. Kesmala, T. Vorasoot, N. |
2018 |
Journal of Agronomy and Crop Science 2 (204), pp. 111-122 |
||||||||
68. | Root responses in chromosome segment substitution lines of rice ‘KDML105’ under early drought stress | Vorasoot, N. Jongrungklang, N. Sanitchon, J. |
2018 |
Chilean Journal of Agricultural Research 2 (78), pp. 238-254 |
||||||||
69. | Seasonal variation in photosynthesis performance of cassava at two different growth stages under irrigated and rain-fed conditions in a tropical savanna climate | Banterng, P. Jogloy, S.S. Vorasoot, N. Theerakulpisut, P. |
2018 |
Photosynthetica 4 (56), pp. 1398-1413 |
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70. | Seasonal variation in starch accumulation and starch granule size in cassava genotypes in a tropical savanna climate | Janket, A. Vorasoot, N. Toomsan, B. Kaewpradit, W. Banterng, P. Kesmala, T. Theerakulpisut, P. Jogloy, S.S. |
2018 |
Agronomy 12 (8), pp. |
||||||||
71. | Association of aflatoxin contamination and root traits of peanut genotypesunder terminal drought | Koolachart, R. Jogloy, S.S. Vorasoot, N. Jongrungklang, N. Kesmala, T. Suriharn, B. |
2019 |
Sabrao Journal of Breeding and Genetics 3 (51), pp. 234-251 |
||||||||
72. | Cassava growth analysis of production during the off-season of paddy rice | Banterng, P. Jogloy, S.S. Vorasoot, N. |
2019 |
Crop Science 2 (59), pp. 760-771 |
||||||||
73. | Changes in Root Anatomy of Peanut (Arachis hypogaea L.) under Different Durations of Early Season Drought | Jogloy, S.S. Kesmala, T. Vorasoot, N. |
2019 |
Agronomy 5 (9), pp. |
||||||||
74. | Diurnal and seasonal variations in the photosynthetic performance and chlorophyll fluorescence of cassava ‘rayong 9’ under irrigated and rainfed conditions | Banterng, P. Jogloy, S.S. Vorasoot, N. Theerakulpisut, P. |
2019 |
Photosynthetica 1 (57), pp. 268-285 |
||||||||
75. | Effect of terminal drought on arginine content in peanut genotypes with difference in levels of drought resistance | Jogloy, S.S. Vorasoot, N. Nuchadomrong, S. Patanothai, A. |
2019 |
International Journal of Plant Production 2 (13), pp. 155-162 |
||||||||
76. | Endophytic Bacteria Improve Root Traits, Biomass and Yield of Helianthus tuberosus L. Under normal and deficit water conditions | Jogloy, S.S. Vorasoot, N. Boonlue, S. Mongkolthanaruk, W. |
2019 |
Journal of Microbiology and Biotechnology 11 (29), pp. 1777-1789 |
||||||||
77. | Growth rates and yields of cassava at different planting dates in a tropical savanna climate | Banterng, P. Vorasoot, N. Jogloy, S.S. Theerakulpisut, P. |
2019 |
Scientia Agricola 5 (76), pp. 376-388 |
||||||||
78. | Leaf performances of cassava genotypes in different seasons and its relationship with biomass | Banterng, P. Vorasoot, N. Jogloy, S.S. Theerakulpisut, P. |
2019 |
Turkish Journal of Field Crops 1 (24), pp. 54-64 |
||||||||
79. | Relationships between nutrient uptake and nitrogen fixation with aflatoxin contamination in peanut under terminal drought | Htoon, W. Kaewpradit, W. Vorasoot, N. Toomsan, B. Akkasaeng, C. Puppala, N. Jogloy, S.S. |
2019 |
Agronomy 8 (9), pp. |
||||||||
80. | Seasonal variations in canopy size and yield of Rayong 9 cassava genotype under rainfed and irrigated conditions | Jogloy, S.S. Vorasoot, N. Theerakulpisut, P. Banterng, P. Kesmala, T. |
2019 |
Agronomy 7 (9), pp. |
||||||||
81. | The impact of seasonal environments in a tropical savanna climate on forking, leaf area index, and biomass of cassava genotypes | Banterng, P. Vorasoot, N. Jogloy, S.S. Theerakulpisut, P. |
2019 |
Agronomy 1 (9), pp. |
||||||||
82. | Accumulation dynamics of starch and its granule size distribution of cassava genotypes at different growing seasons | Janket, A. Vorasoot, N. Toomsan, B. Kaewpradit, W. Theerakulpisut, P. Jogloy, S.S. Banterng, P. |
2020 |
Agriculture (Switzerland) 9 (10), pp. 1-16 |
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83. | Physiology, growth and yield of different cassava genotypes planted in upland with dry environment during high storage root accumulation stage | Banterng, P. Vorasoot, N. Jogloy, S.S. Theerakulpisut, P. |
2020 |
Agronomy 4 (10), pp. |
||||||||
84. | Responses of total biomass, shoot dry weight, yield and yield components of jerusalem artichoke (Helianthus tuberosus l.) varieties under different terminal drought duration | Jogloy, S.S. Vorasoot, N. Toomsan, B. Jongrungklang, N. Kesmala, T. |
2020 |
Agriculture (Switzerland) 6 (10), pp. |
||||||||
85. | Seasonal variation in canopy size, light penetration and photosynthesis of three cassava genotypes with different canopy architectures | Jogloy, S.S. Vorasoot, N. Theerakulpisut, P. Banterng, P. |
2020 |
Agronomy 10 October (10), pp. |
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86. | Starch accumulation and granule size distribution of cassava cv. Rayong 9 grown under irrigated and rainfed conditions using different growing seasons | Janket, A. Vorasoot, N. Toomsan, B. Kaewpradit, W. Jogloy, S.S. Theerakulpisut, P. Banterng, P. |
2020 |
Agronomy 3 (10), pp. |
||||||||
87. | Starch accumulation of cassava genotypes grown in paddy fields during off-season | Banterng, P. Jogloy, S.S. Vorasoot, N. |
2020 |
Sabrao Journal of Breeding and Genetics 2 (52), pp. 109-126 |
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88. | Changes in root xylem anatomy of peanut genotypes with different drought resistance levels under early-season drought | Jogloy, S.S. Jongrungklang, N. Vorasoot, N. |
2021 |
Journal of Agronomy and Crop Science 5 (207), pp. 803-813 |
||||||||
89. | Growth enhancement of sunchoke by arbuscular mycorrhizal fungi under drought condition | Mongkolthanaruk, W. Jogloy, S.S. Vorasoot, N. Boonlue, S. |
2021 |
Rhizosphere (17), pp. |
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90. | Identifying suitable genotypes for different cassava production environments-a modeling approach | Banterng, P. Vorasoot, N. Jogloy, S.S. Theerakulpisut, P. |
2021 |
Agronomy 7 (11), pp. |
||||||||
91. | Nutrient uptake and nutrient use efficiency of cassava genotypes with different starch bulking periods as affected by different planting dates | Janket, A. Jogloy, S.S. Vorasoot, N. Toomsan, B. Kaewpradit, W. Theerakulpisut, P. Banterng, P. |
2021 |
Journal of Plant Nutrition 4 (44), pp. 580-599 |
||||||||
92. | Performance of a model in simulating growth and stability for cassava grown after rice | Banterng, P. Jogloy, S.S. Vorasoot, N. |
2021 |
Agronomy Journal 3 (113), pp. 2335-2348 |
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93. | Performance of the CSM–MANIHOT–Cassava model for simulating planting date response of cassava genotypes | Banterng, P. Vorasoot, N. Jogloy, S.S. Theerakulpisut, P. |
2021 |
Field Crops Research (264), pp. |
||||||||
94. | Relationship between physiological and root traits of peanut genotypes under terminal drought stress | Aninbon, C. Jogloy, S.S. Vorasoot, N. Patanothai, A. |
2021 |
International Journal of Agricultural Technology 3 (17), pp. 795-808 |
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95. | The variation of relative water content, SPAD chlorophyll meter reading, stomatal conductance, leaf area, and specific leaf area of Jerusalem artichoke genotypes under different durations of terminal drought in tropical region | Jogloy, S.S. Vorasoot, N. Laohasiriwong, S. |
2021 |
Journal of Agronomy and Crop Science (), pp. |
||||||||
96. | Capability of cassava model to determine biomass of two branching types at different plant spacings | Jongrungklang, N. Jogloy, S.S. Vorasoot, N. Banterng, P. |
2022 |
Agriculture and Natural Resources 1 (56), pp. 73-84 |
||||||||
97. | Light Interception and Radiation Use Efficiency of Cassava under Irrigated and Rainfed Conditions and Seasonal Variations | Mahakosee, S. Jogloy, S. Vorasoot, N. Theerakulpisut, P. Holbrook, C.C. Kvien, C.K. Banterng, P. |
2022 |
Agriculture (Switzerland) 5 (12), pp. |
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98. | Photosynthetic and physiological responses to drought of Jerusalem artichoke genotypes differing in drought resistance | Puangbut, D. Jogloy, S.S. Vorasoot, N. Songsri, P. |
2022 |
Agricultural Water Management (259), pp. |
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