Muneharu Sato

Use of rice response characteristics in area estimation by LANDSAT/TM and MOS-1 satellites data

Abstract Satellite image interpretation for LANDSAT/TM and MOS-1 data was conducted for identification and area estimation of rice fields for Hishikari Town in Kyushu Island near Kagoshima City, Japan. The results were confirmed by video-recorded aerial photographs and by ground observations. The rice field identification, which was carried out by computer-implemented MDM classification using LODIA software, created some confusion between different test sites. However, the digitally processed image of the LANDSAT/TM 4 and 5 band difference index, discriminated the rice fields very well. The estimated rice areas were observed to be fairly close to the statistical reports made by the town office. The present study shows the potential of image processing for the identification and area estimation by rice response characteristics.

Chromosomal Location of HCA1 and HCA2, Hybrid Chlorosis Genes in Rice

Many postzygotic reproductive barrier forms have been reported in plants: hybrid weakness, hybrid necrosis, and hybrid chlorosis. In this study, linkage analysis of the genes causing hybrid chlorosis in F2 generation in rice, HCA1 and HCA2, was performed. HCA1 and HCA2 are located respectively on the distal regions of the short arms of chromosomes 12 and 11. These regions are known to be highly conserved as a duplicated chromosomal segment. The molecular mechanism causing F2 chlorosis deduced from the location of the two genes was discussed. The possibility of the introgression of the chromosomal segments encompassing HCA1 and/or HCA2 was also discussed from the viewpoint of Indica-Japonica differentiation.

Genetic analysis of ion-beam induced extremely late heading mutants in rice.

Two extremely late heading mutants were induced by ion beam irradiation in rice cultivar ‘Taichung 65’: KGM26 and KGM27. The F2 populations from the cross between the two mutants and Taichung 65 showed clear 3 early: 1 late segregation, suggesting control of late heading by a recessive gene. The genes identified in KGM26 and KGM27 were respectively designated as FLT1 and FLT2. The two genes were mapped using the crosses between the two mutants and an Indica cultivar ‘Kasalath’. FLT1 was located on the distal end of the short arm of chromosome 8. FLT2 was located around the centromere of chromosome 9. FLT1 might share the same locus as EHD3 because their chromosomal location is overlapping. FLT2 is inferred to be a new gene because no gene with a comparable effect to that of this gene was mapped near the centromere of chromosome 9. In crosses with Kasalath, homozygotes of late heading mutant genes showed a large variation of days to heading, suggesting that other genes affected late heading mutant genes.

Distribution of Hwc2-1, a causal gene of a hybrid weakness, in the World Rice Core collection and the Japanese Rice mini Core collection: its implications for varietal differentiation and artificial selection

A pair of complementary genes, Hwc1-1 at HWC1 locus and Hwc2-1 at HWC2 locus, cause a weakness phenomenon in rice. For this study, we performed haplotype analysis around the HWC2 locus in two core collections comprising 119 accessions. We also examined reactions to phenol and Xanthomonas oryzae pv. oryzae (Xoo) Japanese race I. To elucidate the genetic relations among all accessions, we analyzed their banding patterns of 40 Indel markers covering the rice genome. The classification by Indel markers was almost consistent with that using 4,357 SNPs. The testcross with Hwc1-1 carrier indicated that 37 accessions carried Hwc2-1 allele, whereas 82 carried hwc2-2 allele. Strong association between HWC2 and Ph genes was observed. Based on 14 DNA markers around HWC2 locus and Ph genotype, the 119 accessions were divided into 50 haplotypes. To examine the HWC2 candidate chromosomal region specifically, the ‘haplotype group’ characterized by the six DNA markers closely linked with HWC2 were analyzed. Hwc2-1 carriers had the same haplotype group. Some hwc2-2 haplotype groups were associated with resistance against the Xoo race. The relation between varietal differentiation and haplotypes around the HWC2 locus was discussed, along with its breeding significance.