Viability of Deficit Irrigation Pre-Exposure in Adapting Robusta Coffee to Drought Stress

Godfrey Sseremba; Pangirayi Bernard Tongoona; Pascal Musoli; John Saviour Yaw Eleblu; Leander Dede Melomey; Daphne Nyachaki Bitalo; Evans Atwijukire; Joseph Mulindwa; Naome Aryatwijuka; Edgar Muhumuza; Judith Kobusinge; Betty Magambo; Godfrey Hubby Kagezi; Eric Yirenkyi Danquah; Elizabeth Balyejusa Kizito; Gerald Kyalo; Emmanuel Iyamulemye; Geofrey Arinaitwe

doi:10.3390/agronomy13030674

Agronomy (Feb 2023)

Viability of Deficit Irrigation Pre-Exposure in Adapting Robusta Coffee to Drought Stress

Godfrey Sseremba,
Pangirayi Bernard Tongoona,
Pascal Musoli,
John Saviour Yaw Eleblu,
Leander Dede Melomey,
Daphne Nyachaki Bitalo,
Evans Atwijukire,
Joseph Mulindwa,
Naome Aryatwijuka,
Edgar Muhumuza,
Judith Kobusinge,
Betty Magambo,
Godfrey Hubby Kagezi,
Eric Yirenkyi Danquah,
Elizabeth Balyejusa Kizito,
Gerald Kyalo,
Emmanuel Iyamulemye,
Geofrey Arinaitwe

Affiliations

Godfrey Sseremba: National Coffee Research Institute, National Agricultural Research Organisation, Mukono P.O. Box 185, Uganda
Pangirayi Bernard Tongoona: West Africa Centre for Crop Improvement, University of Ghana Legon, Accra PMB LG30, Ghana
Pascal Musoli: National Coffee Research Institute, National Agricultural Research Organisation, Mukono P.O. Box 185, Uganda
John Saviour Yaw Eleblu: West Africa Centre for Crop Improvement, University of Ghana Legon, Accra PMB LG30, Ghana
Leander Dede Melomey: West Africa Centre for Crop Improvement, University of Ghana Legon, Accra PMB LG30, Ghana
Daphne Nyachaki Bitalo: National Coffee Research Institute, National Agricultural Research Organisation, Mukono P.O. Box 185, Uganda
Evans Atwijukire: National Coffee Research Institute, National Agricultural Research Organisation, Mukono P.O. Box 185, Uganda
Joseph Mulindwa: National Coffee Research Institute, National Agricultural Research Organisation, Mukono P.O. Box 185, Uganda
Naome Aryatwijuka: National Coffee Research Institute, National Agricultural Research Organisation, Mukono P.O. Box 185, Uganda
Edgar Muhumuza: National Coffee Research Institute, National Agricultural Research Organisation, Mukono P.O. Box 185, Uganda
Judith Kobusinge: National Coffee Research Institute, National Agricultural Research Organisation, Mukono P.O. Box 185, Uganda
Betty Magambo: National Coffee Research Institute, National Agricultural Research Organisation, Mukono P.O. Box 185, Uganda
Godfrey Hubby Kagezi: National Coffee Research Institute, National Agricultural Research Organisation, Mukono P.O. Box 185, Uganda
Eric Yirenkyi Danquah: West Africa Centre for Crop Improvement, University of Ghana Legon, Accra PMB LG30, Ghana
Elizabeth Balyejusa Kizito: Department of Agriculture, Faculty of Agricultural Science, Uganda Christian University, Mukono P.O. Box 4, Uganda
Gerald Kyalo: Uganda Coffee Development Authority, Kampala P.O. Box 7267, Uganda
Emmanuel Iyamulemye: Uganda Coffee Development Authority, Kampala P.O. Box 7267, Uganda
Geofrey Arinaitwe: National Coffee Research Institute, National Agricultural Research Organisation, Mukono P.O. Box 185, Uganda

DOI: https://doi.org/10.3390/agronomy13030674
Journal volume & issue: Vol. 13, no. 3
p. 674

Abstract

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Coffea canephora has high but inadequately exploited genetic diversity. This diversity, if well exploited, can sustain coffee productivity amidst climate change effects. Drought and heat stress are major global threats to coffee productivity, quality, and tradable volumes. It is not well understood if there is a selectable variation for drought stress tolerance in Robusta coffee half-sibs as a result of watering deficit pre-exposure at the germination stage. Half-sib seeds from selected commercial clones (KR5, KR6, KR7) and a pipeline clone X1 were primed with deficit watering at two growth stages followed by recovery and later evaluated for tolerance to watering deficit stress in three different temperature environments by estimation of plant growth and wilt parameters. Overall, the KR7 family performed the best in terms of the number of individuals excelling for tolerance to deficit watering. In order of decreasing tolerance, the 10 most promising individuals for drought and heat tolerance were identified as: 14.KR7.2, 25.X1.1, 35.KR5.5, 36.KR5.6, 41.KR7.5, 46.KR6.4, 47.KR6.5, 291.X1.3, 318.X1.3, and 15.KR7.3. This is the first prospect into the potential of C. canephora half-sibs’ diversity as an unbound source of genetic variation for abiotic stress tolerance breeding.

Published in Agronomy

ISSN: 2073-4395 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Agriculture
Website: http://www.mdpi.com/journal/agronomy

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