Details
| Original language | English |
|---|---|
| Pages (from-to) | 282-290 |
| Number of pages | 9 |
| Journal | Agriculture, Ecosystems and Environment |
| Volume | 233 |
| Publication status | Published - 28 Sept 2016 |
Abstract
Crops under climate change will be simultaneously exposed to multiple stresses of biotic and abiotic nature. To control rice bacterial blight (BB), near-isogenic lines carrying Xa genes were previously developed, while rice near isogenic lines (NILs) with drought yield QTLs (qDTY) were selected for rice yield improvement under drought conditions. In this study, the response of 17 rice lines to simultaneous BB and drought stresses were evaluated in screenhouse trials and field trials to evaluate their response to exposure to BB and drought simultaneously. Under drought stress, qDTY NILs with their shorter growing period were less affected, while IR24 and IRBB4 showed growth reduction and inhibition of flowering under field conditions. NILs with BB resistance (R) Xa gene alone showed resistance to Xanthomonas oryzae pv. oryzae (Xoo) strains carrying the corresponding avirulence gene, except in genotype IRBB4 with the Xa4 R gene that, although resistant, showed a significant increase in disease severity under drought stress after inoculation with Xoo strain PXO61 (avrXa4) compared to irrigated conditions. IR64 introgression lines (IR87705-6-9-B, IR87707-445-B-B-B, IR87707-446-B-B-B) with the combination of the Xa4 R gene and qDTY showed resistance to Xoo strains PXO61 (avrXa4) and PXO145 (avrXa4) under irrigated conditions but were less resistant under drought. Vandana qDTY NILs were susceptible to all Xoo strains under both irrigated and drought stress conditions, but were more resistant under drought. These results highlight the wide genotypic variation among rice lines in response to BB under drought stress and the advantage of trait combinations (Xa + qDTY) to confer drought tolerance and BB resistance under unfavorable future climate conditions.
Keywords
- Bacterial blight, Drought, qDTY, Rice, Xa gene
ASJC Scopus subject areas
- Environmental Science(all)
- Ecology
- Agricultural and Biological Sciences(all)
- Animal Science and Zoology
- Agricultural and Biological Sciences(all)
- Agronomy and Crop Science
Sustainable Development Goals
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In: Agriculture, Ecosystems and Environment, Vol. 233, 28.09.2016, p. 282-290.
Research output: Contribution to journal › Article › Research › peer review
}
TY - JOUR
T1 - Combining drought QTLs and bacterial blight Xa-genes to control bacterial blight disease under drought stress
AU - Dossa, Gerbert Sylvestre
AU - Henry, Amelia
AU - Oliva, Ricardo
AU - Maiss, Edgar
AU - Kumar, Arvind
AU - Vera Cruz, Casiana
AU - Wydra, Kerstin
N1 - Funding Information: We thank Paul Maturan, Jocelyn Guevarra, RuthErica Carpio, Teodoro Cuevas, and Dani Ocampo for their technical support in field trials. We thank Dalvin Morales, Eric Mateo, Carmelito Oca, Aris Reyes, A. Los Anes and Rolando Torres for their support in the screenhouse trials and measurement in field trials. We also thank Ronald Jabier and John Carlo Figuerra for their support in BB disease evaluation in both field and screenhouse trials. This work was partially supported by BMZ project “Mitigating the Impact of Climate Change on Rice Diseases in East Africa (MICCORDEA)” in collaboration with the Africa Rice Centre and by the Global Rice Science Partnership (GRiSP) at the International Rice Research Institute (IRRI).
PY - 2016/9/28
Y1 - 2016/9/28
N2 - Crops under climate change will be simultaneously exposed to multiple stresses of biotic and abiotic nature. To control rice bacterial blight (BB), near-isogenic lines carrying Xa genes were previously developed, while rice near isogenic lines (NILs) with drought yield QTLs (qDTY) were selected for rice yield improvement under drought conditions. In this study, the response of 17 rice lines to simultaneous BB and drought stresses were evaluated in screenhouse trials and field trials to evaluate their response to exposure to BB and drought simultaneously. Under drought stress, qDTY NILs with their shorter growing period were less affected, while IR24 and IRBB4 showed growth reduction and inhibition of flowering under field conditions. NILs with BB resistance (R) Xa gene alone showed resistance to Xanthomonas oryzae pv. oryzae (Xoo) strains carrying the corresponding avirulence gene, except in genotype IRBB4 with the Xa4 R gene that, although resistant, showed a significant increase in disease severity under drought stress after inoculation with Xoo strain PXO61 (avrXa4) compared to irrigated conditions. IR64 introgression lines (IR87705-6-9-B, IR87707-445-B-B-B, IR87707-446-B-B-B) with the combination of the Xa4 R gene and qDTY showed resistance to Xoo strains PXO61 (avrXa4) and PXO145 (avrXa4) under irrigated conditions but were less resistant under drought. Vandana qDTY NILs were susceptible to all Xoo strains under both irrigated and drought stress conditions, but were more resistant under drought. These results highlight the wide genotypic variation among rice lines in response to BB under drought stress and the advantage of trait combinations (Xa + qDTY) to confer drought tolerance and BB resistance under unfavorable future climate conditions.
AB - Crops under climate change will be simultaneously exposed to multiple stresses of biotic and abiotic nature. To control rice bacterial blight (BB), near-isogenic lines carrying Xa genes were previously developed, while rice near isogenic lines (NILs) with drought yield QTLs (qDTY) were selected for rice yield improvement under drought conditions. In this study, the response of 17 rice lines to simultaneous BB and drought stresses were evaluated in screenhouse trials and field trials to evaluate their response to exposure to BB and drought simultaneously. Under drought stress, qDTY NILs with their shorter growing period were less affected, while IR24 and IRBB4 showed growth reduction and inhibition of flowering under field conditions. NILs with BB resistance (R) Xa gene alone showed resistance to Xanthomonas oryzae pv. oryzae (Xoo) strains carrying the corresponding avirulence gene, except in genotype IRBB4 with the Xa4 R gene that, although resistant, showed a significant increase in disease severity under drought stress after inoculation with Xoo strain PXO61 (avrXa4) compared to irrigated conditions. IR64 introgression lines (IR87705-6-9-B, IR87707-445-B-B-B, IR87707-446-B-B-B) with the combination of the Xa4 R gene and qDTY showed resistance to Xoo strains PXO61 (avrXa4) and PXO145 (avrXa4) under irrigated conditions but were less resistant under drought. Vandana qDTY NILs were susceptible to all Xoo strains under both irrigated and drought stress conditions, but were more resistant under drought. These results highlight the wide genotypic variation among rice lines in response to BB under drought stress and the advantage of trait combinations (Xa + qDTY) to confer drought tolerance and BB resistance under unfavorable future climate conditions.
KW - Bacterial blight
KW - Drought
KW - qDTY
KW - Rice
KW - Xa gene
UR - http://www.scopus.com/inward/record.url?scp=84988811925&partnerID=8YFLogxK
U2 - 10.1016/j.agee.2016.09.017
DO - 10.1016/j.agee.2016.09.017
M3 - Article
AN - SCOPUS:84988811925
VL - 233
SP - 282
EP - 290
JO - Agriculture, Ecosystems and Environment
JF - Agriculture, Ecosystems and Environment
SN - 0167-8809
ER -