The effects of submergence on chlorophyll (Chl) a fluorescence were compared in seven Oryza sativa (L.) cultivars, namely FR 13A, Khoda, Khadara, Kalaputia (tolerant), Sabita, and Hatipanjari (avoiding type), and IR 42 (susceptible). Seedlings were submerged for 4 d under complete darkness. Oxygen concentration of flood water decreased with the period of submergence with concomitant increase in concentration of carbon dioxide. Submergence caused diminution in the amount of total Chl. Genotypic differences were observed for Chl content and survival percentage. Quantification of the Chl a fluorescence transients (JIP-test) revealed large cultivar differences in the response of photosystem 2 (PS2) to submergence. The kinetics of Chl a fluorescence rise showed complex changes in the magnitudes and rise of O-J, J-I, and I-P phases caused by submergence. The selective suppression of the J-I phase of fluorescence especially after 2 d of submergence provided evidence for weakened electron donation from the oxygen evolving complex whereas under severe submergence stress (4 d) both O-J and J-I steps were suppressed greatly with highly suppressed P-step, which resulted in lowering of variable fluorescence. Grouping probability or energetic connectivity between PS2 obtained through JIP-test from the data after 2 d of submergence showed a direct relation with survival percentage, i.e. fluorescence measurements contained the information of the survival chance of a plant under submerged conditions. The information could be used in identifying the submergence tolerant cultivars when the damage is not very severe.
Submergence tolerance is an important trait where short term flash flooding
damages rice. Tolerant landraces that withstand submergence for 1–2 weeks were
identified. Due to the heterogeneity in flood-prone ecosystem many different types
of traditional rice cultivars are being grown by the farmers. The local landraces
adapted to extremes in water availability could be the sources of genetic variation
are to be used to improve the adaptability of rice to excess water stress. Greater
genotypic variability was observed for plant height, elongation and survival %,
absolute growth rate, non-structural carbohydrate retention capacity, chlorophyll
content, different chlorophyll fluorescence parameters (FPs) characteristics, and
re-generation growth at re-emergence. Twenty days submergence caused greater damage
even in Submergence 1 (SUB1) introgressed cultivars compared to the 14 days of submergence.
The FPs, carbohydrate content and dry weight at the end of submergence showed
positive and highly significant association with re-generation growth. The presence
of SUB1 associated primers, either SC3 or ART5,
was noticed even in greater elongating types of rice genotypes. These genotypes
possess one or more of the adaptive traits required for the flood-prone ecosystem,
which range from temporary submergence of 1–2 weeks to long period of stagnant water
tolerance.Electronic supplementary materialThe online version of this article (doi:10.1007/s12284-011-9065-z) contains supplementary material, which is available to authorized
users.
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