• Research Paper • Previous Articles Next Articles
Online:
2014-05-28
Published:
2014-03-27
Contact:
Norvie L. MANIGBAS
Supported by:
Norvie L. MANIGBAS, Leslie Angela F. LAMBIO, Luvina B. MADRID, Corazon C. CARDENAS. Germplasm Innovation of Heat Tolerance in Rice for Irrigated Lowland Conditions in the Philippines[J]. RICE SCIENCE, DOI: 10.1016/S1672-6308(13)60180-8 .
Add to citation manager EndNote|Ris|BibTeX
URL: http://www.ricesci.org/EN/10.1016/S1672-6308(13)60180-8
Bioversity International, International Rice Research Institute, West Africa Rice Development Association. 2007. Descriptors for wild and cultivated (Oryza spp.). Rome, Italy: International Plant Genetic Resources Institute: 72.Boote K J, Pickering N B, Baker J T, Allen L H Jr. 1994. Modeling leaf and canopy photosynthesis of rice in response to carbon dioxide and temperature. Int Rice Res Notes, 19: 47–48.Ceccareli S, Grando S, Maatougui M, Michael M, Slash M, Haghparast R, Rahmanian M, Taheri A, Al-Yassin A, Benbelkacem A, Labdi M, Mimoun H, Nachit M. 2010. Plant breeding and climate changes. J Agric Sci, 148: 627–637.Catherine C, Gemma N D, Victoria te Velde of Agulhas. 2012. Managing climate extremes and disasters in Asia: Lessons from the IPCC SREX reports. Climate and Development Knowledge Network. Available from http://www.ifrc.org/docs/IDRL/ Managing Climate Extremes Asia.pdf. March 5, 2013.Hansen J, Lacis A, Rind D, Russell G, Stone P, Fung I, Ruedy R, Lerner J. 1984. Climate sensitivity: Analysis of feedback mechanisms. In: Hansen J, Takahashi T. Climate Process and Climate Sensitivity. Washington DC: American Geophysical Union: 130–163.Horie T, Matsui T, Nakagawa H, Omasa K. 1996. Effect of elevated CO2 and global climate change on rice yield in Japan. In: Omasa K, Kai K, Toda H, Uchijima Z, Yoshimo M. Climate Change and Plants in East Asia. Tokyo: Springer-Verlag: 39–56.Horie T, Centeno H G S, Nakagawa H, Matsui T. 1997. Effect of elevated CO2 and climate change on rice production in East and Southeast Asia. In: Oshima Y, Spratt E, Stewart J W B. Proceeding of the International Scientific Symposium on Asian Paddy Fields: Their environmental, historical, cultural, and economic aspects under various physical conditions. Canada, Saskatchewan: College of Agriculture University Saskatchewan: 218.Imaki T, Jyokei K, Hara K. 1982. Flower opening under controlled environment in rice plants. Bulletin of the Faculty of Agriculture, Shimane University: 16: 1–7.IPCC. 2012. Summary for policymakers. In: Field C B, Barros V, Stocker T F, Qin D, Dokken D J, Ebi K L, Mastrandrea M D, Mach K J, Plattner G K, Allen S K, Tignor M, Midgley P M. Managing the Risks of Extreme Events and Disasters to Advance Climate Change Adaptation: A Special Report of Working Groups I and II of the Intergovernmental Panel on Climate Change. Cambridge, UK and New York, USA: Cambridge University Press: 1–19.Jagadish S V K, Cairns J, Lafitte R, Wheeler T R, Price A H, Craufurd P Q. 2010. Genetic analysis of heat tolerance at anthesis in rice. Crop Sci, 50: 1633–1641. Jagadish S V K, Septiningsih E M, Kohli A, Thomson M J, Ye C, Redo?a E, Kumar A, Gregorio G B, Wassmann R, Ismail A M, Singh R K. 2012. Genetic advances in adapting rice to a rapidly changing climate. J Agron Crop Sci, 198(5): 360–373.Mackill D J, Coffman W R, Rutger J N. 1982. Pollen shedding and combining ability for high temperature tolerance in rice. Crop Sci, 22(4): 730–733.Manigbas N L, Sebastian L S. 2007. Breeding for High Temperature Tolerance in the Philippines: Proceedings of the International Workshop on Cool Rice for a Warmer World. Huazhong Agricultural Univeristy, Wuhan, Hubei, China. March 26–30, 2007.Matsui T, Omasa K, Horie T. 1997a. High temperature-induced spikelet sterility of japonica rice at flowering in relation to air temperature, humidity, and wind velocity conditions. Jpn J Crop Sci, 66(3): 449–455.Matsui T, Namuco O S, Zisca L H, Horie T. 1997b. Effects of high temperature and CO2 concentration on spikelet sterility in indica rice. Field Crops Res, 51(3): 213–219.Matsui T, Omasa K, Horie T. 1999a. Rapid swelling of pollen grains in response to floret opening unfolds anther locules in rice (Oryza sativa L.). Plant Prod Sci, 2(3): 196–199.Matsui T, Omasa K, Horie T. 1999b. Mechanism of anther dehiscence in rice (Oryza sativa L.). Ann Bot, 84(4): 501–506.Matsui T, Omasa K, Horie T. 2000. High temperature at flowering inhibits swelling of pollen grains, a driving force for thecea dehiscence in rice (Oryza sativa L.). Plant Prod Sci, 3: 430–434.Matsui T, Omasa K, Horie T. 2001. The difference in sterility due to high temperatures during the flowering period among japonica rice varieties. Plant Prod Sci, 4(2): 90–93.Matsushima S, Ikewada H, Maeda A, Honda S, Niki H. 1982. Studies on rice cultivation in the tropics: 1. Yielding and ripening responses of the rice plant to the extremely hot and dry climate in Sudan. Jpn J Trop Agric, 26(1): 19–25.Matthews R B, Kropff M J, Horie T, Bachelet D. 1997. Simulating the impact of climate change on rice production in Asia and evaluating options for adaptation. Agric Syst, 54(3): 399–425.Osada A, Saciplapa V, Rahong M, Dhammanuvong S, Chakrabandho H. 1973. Abnormal occurrence of empty grains of indica rice plants in the dry, hot season in Thailand. Jpn J Crop Sci, 42(1): 103–109.Peng S B, Huang J L, Sheehy J E, Laza R C, Visperas R M, Zhong X H, Centeno G S, Khush G S, Cassman K G. 2004. Rice yield decline with higher night temperature from global warming. Proc Natl Acad Sci USA, 101(27): 9971–9975.Redona E D, Manigbas N L, Laza M A, Sierra S N, Bartolome V I, Nora L A, Barroga W V, Noriel A J M. 2009. Identifying heat-tolerant rice genotypes under different environments. SABRAO J Breed Genet, 41(suppl).Satake T, Yoshida S. 1978. High temperature induced sterility in indica rice at flowering. Jpn J Crop Sci, 47(1): 6–17.Shah F, Huang J, Cui K, Nie L, Shah T, Chen C, Wang K. 2011. Impact of high-temperature stress on rice plant and its traits related to tolerance. J Agric Sci, 149(5): 545–556. |
[1] | Prathap V, Suresh KUMAR, Nand Lal MEENA, Chirag MAHESHWARI, Monika DALAL, Aruna TYAGI. Phosphorus Starvation Tolerance in Rice Through a Combined Physiological, Biochemical and Proteome Analysis [J]. Rice Science, 2023, 30(6): 8-. |
[2] | Serena REGGI, Elisabetta ONELLI, Alessandra MOSCATELLI, Nadia STROPPA, Matteo Dell’ANNO, Kiril PERFANOV, Luciana ROSSI. Seed-Specific Expression of Apolipoprotein A-IMilano Dimer in Rice Engineered Lines [J]. Rice Science, 2023, 30(6): 6-. |
[3] | Sundus ZAFAR, XU Jianlong. Recent Advances to Enhance Nutritional Quality of Rice [J]. Rice Science, 2023, 30(6): 4-. |
[4] | Kankunlanach KHAMPUANG, Nanthana CHAIWONG, Atilla YAZICI, Baris DEMIRER, Ismail CAKMAK, Chanakan PROM-U-THAI. Effect of Sulfur Fertilization on Productivity and Grain Zinc Yield of Rice Grown under Low and Adequate Soil Zinc Applications [J]. Rice Science, 2023, 30(6): 9-. |
[5] | FAN Fengfeng, CAI Meng, LUO Xiong, LIU Manman, YUAN Huanran, CHENG Mingxing, Ayaz AHMAD, LI Nengwu, LI Shaoqing. Novel QTLs from Wild Rice Oryza longistaminata Confer Rice Strong Tolerance to High Temperature at Seedling Stage [J]. Rice Science, 2023, 30(6): 14-. |
[6] | LIN Shaodan, YAO Yue, LI Jiayi, LI Xiaobin, MA Jie, WENG Haiyong, CHENG Zuxin, YE Dapeng. Application of UAV-Based Imaging and Deep Learning in Assessment of Rice Blast Resistance [J]. Rice Science, 2023, 30(6): 10-. |
[7] | Md. Forshed DEWAN, Md. AHIDUZZAMAN, Md. Nahidul ISLAM, Habibul Bari SHOZIB. Potential Benefits of Bioactive Compounds of Traditional Rice Grown in South and South-East Asia: A Review [J]. Rice Science, 2023, 30(6): 5-. |
[8] | Raja CHAKRABORTY, Pratap KALITA, Saikat SEN. Phenolic Profile, Antioxidant, Antihyperlipidemic and Cardiac Risk Preventive Effect of Chakhao Poireiton (A Pigmented Black Rice) in High-Fat High-Sugar induced Rats [J]. Rice Science, 2023, 30(6): 11-. |
[9] | LI Qianlong, FENG Qi, WANG Heqin, KANG Yunhai, ZHANG Conghe, DU Ming, ZHANG Yunhu, WANG Hui, CHEN Jinjie, HAN Bin, FANG Yu, WANG Ahong. Genome-Wide Dissection of Quan 9311A Breeding Process and Application Advantages [J]. Rice Science, 2023, 30(6): 7-. |
[10] | JI Dongling, XIAO Wenhui, SUN Zhiwei, LIU Lijun, GU Junfei, ZHANG Hao, Tom Matthew HARRISON, LIU Ke, WANG Zhiqin, WANG Weilu, YANG Jianchang. Translocation and Distribution of Carbon-Nitrogen in Relation to Rice Yield and Grain Quality as Affected by High Temperature at Early Panicle Initiation Stage [J]. Rice Science, 2023, 30(6): 12-. |
[11] | Nazaratul Ashifa Abdullah Salim, Norlida Mat Daud, Julieta Griboff, Abdul Rahim Harun. Elemental Assessments in Paddy Soil for Geographical Traceability of Rice from Peninsular Malaysia [J]. Rice Science, 2023, 30(5): 486-498. |
[12] | Tan Jingyi, Zhang Xiaobo, Shang Huihui, Li Panpan, Wang Zhonghao, Liao Xinwei, Xu Xia, Yang Shihua, Gong Junyi, Wu Jianli. ORYZA SATIVA SPOTTED-LEAF 41 (OsSPL41) Negatively Regulates Plant Immunity in Rice [J]. Rice Science, 2023, 30(5): 426-436. |
[13] | Monica Ruffini Castiglione, Stefania Bottega, Carlo Sorce, Carmelina SpanÒ. Effects of Zinc Oxide Particles with Different Sizes on Root Development in Oryza sativa [J]. Rice Science, 2023, 30(5): 449-458. |
[14] | Ammara Latif, Sun Ying, Pu Cuixia, Noman Ali. Rice Curled Its Leaves Either Adaxially or Abaxially to Combat Drought Stress [J]. Rice Science, 2023, 30(5): 405-416. |
[15] | Liu Qiao, Qiu Linlin, Hua Yangguang, Li Jing, Pang Bo, Zhai Yufeng, Wang Dekai. LHD3 Encoding a J-Domain Protein Controls Heading Date in Rice [J]. Rice Science, 2023, 30(5): 437-448. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||