Screening tomato genotypes for adaptation to high temperature in West Africa

Department of Plant and Environmental Sciences

Screening tomato genotypes for adaptation to high temperature in West Africa

Research output: Contribution to journal › Journal article › Research › peer-review

Standard

Screening tomato genotypes for adaptation to high temperature in West Africa. / Kugblenu, Yvonne O.; Danso, Eric Oppong; Ofori, Kwadjo; Andersen, Mathias Neumann; Abenney-Mickson, Stephen; Sabi, Edward B.; Plauborg, Finn; Abekoe, Mark K.; Ofosu-Anim, John; Ortiz, Rodomiro; Jørgensen, Søren Thorndal.

In: Acta Agriculturae Scandinavica. Section B. Soil and Plant Science, Vol. 63, No. 6, 2013, p. 516-522.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Kugblenu, YO, Danso, EO, Ofori, K, Andersen, MN, Abenney-Mickson, S, Sabi, EB, Plauborg, F, Abekoe, MK, Ofosu-Anim, J, Ortiz, R & Jørgensen, ST 2013, 'Screening tomato genotypes for adaptation to high temperature in West Africa', Acta Agriculturae Scandinavica. Section B. Soil and Plant Science, vol. 63, no. 6, pp. 516-522. https://doi.org/10.1080/09064710.2013.813062

APA

Kugblenu, Y. O., Danso, E. O., Ofori, K., Andersen, M. N., Abenney-Mickson, S., Sabi, E. B., Plauborg, F., Abekoe, M. K., Ofosu-Anim, J., Ortiz, R., & Jørgensen, S. T. (2013). Screening tomato genotypes for adaptation to high temperature in West Africa. Acta Agriculturae Scandinavica. Section B. Soil and Plant Science, 63(6), 516-522. https://doi.org/10.1080/09064710.2013.813062

Vancouver

Kugblenu YO, Danso EO, Ofori K, Andersen MN, Abenney-Mickson S, Sabi EB et al. Screening tomato genotypes for adaptation to high temperature in West Africa. Acta Agriculturae Scandinavica. Section B. Soil and Plant Science. 2013;63(6):516-522. https://doi.org/10.1080/09064710.2013.813062

Author

Kugblenu, Yvonne O. ; Danso, Eric Oppong ; Ofori, Kwadjo ; Andersen, Mathias Neumann ; Abenney-Mickson, Stephen ; Sabi, Edward B. ; Plauborg, Finn ; Abekoe, Mark K. ; Ofosu-Anim, John ; Ortiz, Rodomiro ; Jørgensen, Søren Thorndal. / Screening tomato genotypes for adaptation to high temperature in West Africa. In: Acta Agriculturae Scandinavica. Section B. Soil and Plant Science. 2013 ; Vol. 63, No. 6. pp. 516-522.

Bibtex

@article{236f680cc6af409f99ef264bfaec6553,

title = "Screening tomato genotypes for adaptation to high temperature in West Africa",

abstract = "Tomato is an important vegetable widely grown in the tropics due to its nutritional value and financial benefits for farmers. In Ghana, there is an undersupply caused by production ceasing entirely from October to May due to high temperatures. Heat stress has been reported to cause excessive flower drop leading to drastic reduction in yield; however, genotypic differences in heat tolerance exist in tomato. A greenhouse experiment was conducted to screen 19 different tomato genotypes for their tolerance to heat stress. The genotypes were selected because they were the commercial varieties widely available to farmers. The average day and night temperatures recorded were 33.8°C and 25.9°C, respectively. Cultivars were evaluated for heat adaptation traits such as flower drop and number of fruits. There were highly significant differences between the genotypes for numbers of fruits per plant, ranging from 1 to 27. Fruit yield per plant ranged from 26.7 to 571.8 g. The locally developed open pollinated cultivar {\textquoteleft}Nkansah{\textquoteright} had the highest fruit number and fruit yield per plant, but produced the smallest sized fruits of only 25.2 g. Cultivars with large size fruits were {\textquoteleft}Queen{\textquoteright}, {\textquoteleft}DV 2962{\textquoteright} and {\textquoteleft}Wosowoso{\textquoteright} with a combined average of 85.7 g. The first two principal components (PCs) accounted for 79.7% of total variation. The first PC had positive weights for number of flowers per truss, number of fruits per plant, total number of flowers, yield per plant and number of trusses. PC2 explained 11% of the total variability among genotypes and had positive weights for all traits except number of days to flowering and weight per fruit. The highly contrasting material on traits such as flower and fruit production under high temperatures can be used for further research to elucidate the physiological responses conferring adaptation to heat stress.",

author = "Kugblenu, {Yvonne O.} and Danso, {Eric Oppong} and Kwadjo Ofori and Andersen, {Mathias Neumann} and Stephen Abenney-Mickson and Sabi, {Edward B.} and Finn Plauborg and Abekoe, {Mark K.} and John Ofosu-Anim and Rodomiro Ortiz and J{\o}rgensen, {S{\o}ren Thorndal}",

year = "2013",

doi = "10.1080/09064710.2013.813062",

language = "English",

volume = "63",

pages = "516--522",

journal = "Acta Agriculturae Scandinavica - Section B Soil and Plant Science",

issn = "0906-4710",

publisher = "Taylor & Francis Scandinavia",

number = "6",

}

RIS

TY - JOUR

T1 - Screening tomato genotypes for adaptation to high temperature in West Africa

AU - Kugblenu, Yvonne O.

AU - Danso, Eric Oppong

AU - Ofori, Kwadjo

AU - Andersen, Mathias Neumann

AU - Abenney-Mickson, Stephen

AU - Sabi, Edward B.

AU - Plauborg, Finn

AU - Abekoe, Mark K.

AU - Ofosu-Anim, John

AU - Ortiz, Rodomiro

AU - Jørgensen, Søren Thorndal

PY - 2013

Y1 - 2013

N2 - Tomato is an important vegetable widely grown in the tropics due to its nutritional value and financial benefits for farmers. In Ghana, there is an undersupply caused by production ceasing entirely from October to May due to high temperatures. Heat stress has been reported to cause excessive flower drop leading to drastic reduction in yield; however, genotypic differences in heat tolerance exist in tomato. A greenhouse experiment was conducted to screen 19 different tomato genotypes for their tolerance to heat stress. The genotypes were selected because they were the commercial varieties widely available to farmers. The average day and night temperatures recorded were 33.8°C and 25.9°C, respectively. Cultivars were evaluated for heat adaptation traits such as flower drop and number of fruits. There were highly significant differences between the genotypes for numbers of fruits per plant, ranging from 1 to 27. Fruit yield per plant ranged from 26.7 to 571.8 g. The locally developed open pollinated cultivar ‘Nkansah’ had the highest fruit number and fruit yield per plant, but produced the smallest sized fruits of only 25.2 g. Cultivars with large size fruits were ‘Queen’, ‘DV 2962’ and ‘Wosowoso’ with a combined average of 85.7 g. The first two principal components (PCs) accounted for 79.7% of total variation. The first PC had positive weights for number of flowers per truss, number of fruits per plant, total number of flowers, yield per plant and number of trusses. PC2 explained 11% of the total variability among genotypes and had positive weights for all traits except number of days to flowering and weight per fruit. The highly contrasting material on traits such as flower and fruit production under high temperatures can be used for further research to elucidate the physiological responses conferring adaptation to heat stress.

AB - Tomato is an important vegetable widely grown in the tropics due to its nutritional value and financial benefits for farmers. In Ghana, there is an undersupply caused by production ceasing entirely from October to May due to high temperatures. Heat stress has been reported to cause excessive flower drop leading to drastic reduction in yield; however, genotypic differences in heat tolerance exist in tomato. A greenhouse experiment was conducted to screen 19 different tomato genotypes for their tolerance to heat stress. The genotypes were selected because they were the commercial varieties widely available to farmers. The average day and night temperatures recorded were 33.8°C and 25.9°C, respectively. Cultivars were evaluated for heat adaptation traits such as flower drop and number of fruits. There were highly significant differences between the genotypes for numbers of fruits per plant, ranging from 1 to 27. Fruit yield per plant ranged from 26.7 to 571.8 g. The locally developed open pollinated cultivar ‘Nkansah’ had the highest fruit number and fruit yield per plant, but produced the smallest sized fruits of only 25.2 g. Cultivars with large size fruits were ‘Queen’, ‘DV 2962’ and ‘Wosowoso’ with a combined average of 85.7 g. The first two principal components (PCs) accounted for 79.7% of total variation. The first PC had positive weights for number of flowers per truss, number of fruits per plant, total number of flowers, yield per plant and number of trusses. PC2 explained 11% of the total variability among genotypes and had positive weights for all traits except number of days to flowering and weight per fruit. The highly contrasting material on traits such as flower and fruit production under high temperatures can be used for further research to elucidate the physiological responses conferring adaptation to heat stress.

U2 - 10.1080/09064710.2013.813062

DO - 10.1080/09064710.2013.813062

M3 - Journal article

VL - 63

SP - 516

EP - 522

JO - Acta Agriculturae Scandinavica - Section B Soil and Plant Science

JF - Acta Agriculturae Scandinavica - Section B Soil and Plant Science

SN - 0906-4710

IS - 6

ER -

ID: 95079958