M202, IR50 and advanced backcross (BC4F6) lines carrying the cold tolerance QTLs qCTS4 and qCTS12 were evaluated using three low temperature stress assays (constant, intermittent and constant with recovery period)...M202, IR50 and advanced backcross (BC4F6) lines carrying the cold tolerance QTLs qCTS4 and qCTS12 were evaluated using three low temperature stress assays (constant, intermittent and constant with recovery period). Under constant stress, two BC4F6 lines (MIb 4853-9 and MIb 6885-2) exhibited differences in seedling growth and accumulation of stress-related compounds although both carry the two QTLs in the IRS0 background. Differences between these lines were also observed in the constant with recovery period assay, although both of them performed comparably under intermittent stress, MIb 6885-2 performed more similarly to M202 in the constant and constant with recovery period assays, suggesting that this line contains an introgressed region(s) not present in MIb 4853-9. The three assays were also applied to assess variations in cold tolerance in a set of diverse germplasms. Performance metrics and visual ratings were comparable for evaluating tolerance to constant stress. However, differences in response to intermittent stress were more evident from growth and total chlorophyll measurements than from visual ratings. With regard to the constant with recovery period assay, about 15% of the germplasm accessions did not recover. However, some lines which exhibited chilling injuries of comparable severity were able to overcome them. This recovery phenotype may improve rice performance in the field and warrant further investigation.展开更多
The quantitative trait loci (QTLs) for cold tolerance relative characters were identified with microsatellite markers.Ten QTLs located on chromosome 1, 3, 4, 5, 6, 8, 9, 11(two)and 12 were detected for seedling height...The quantitative trait loci (QTLs) for cold tolerance relative characters were identified with microsatellite markers.Ten QTLs located on chromosome 1, 3, 4, 5, 6, 8, 9, 11(two)and 12 were detected for seedling height at different low temperature. Only 2 of these were detected at the same locus at four environments, 1 was significant at three environments, 6 were significant at two environments and 1 was significant at one environment. Seven QTLs located on chromosome 1(two), 2(two),5,6,8 were found for low temperature chlorosis resistance and five QTLs located on chromosome 3, 4, 7, 8, 11 resistant to chilling injury. The amount of variation explained by individual QTL ranged from 4.85%to 49.34%. There was no linkage relationship among the three characters, which indicates seedling cold tolerance is a complex character and is controlled by different QTLs.展开更多
The rice variety Tesanai 2 is susceptible tochilling.Exposure of the seedlings grown at 28±1℃ and under a photo flux density(PFD)of30 μmol/m~2s to 1℃ and under a PFD of 150μmol/m~2s for 2 d caused a physiolog...The rice variety Tesanai 2 is susceptible tochilling.Exposure of the seedlings grown at 28±1℃ and under a photo flux density(PFD)of30 μmol/m~2s to 1℃ and under a PFD of 150μmol/m~2s for 2 d caused a physiological disor-der called chilling injury which reduced the sur-vival rate to 50%.The experimental results in-展开更多
In the Yangtze river aera,the first crop of indi-ca rice is sown in late Mar to early Apr andtransplanted in early May.Usually,seedlingsperish when abnormal low temperature of 6-10℃ lasted for 3 d or longer.The effec...In the Yangtze river aera,the first crop of indi-ca rice is sown in late Mar to early Apr andtransplanted in early May.Usually,seedlingsperish when abnormal low temperature of 6-10℃ lasted for 3 d or longer.The effect ofsocking seed with urea solution on increasingthe cold tolerance at the seedling stage was展开更多
Glyphosate is the herbicide most extensively used for site preparation and conifer release. It is a broadspectrum herbicide and therefore crop safety is a critical issue. This study assessed the early effects of 14 di...Glyphosate is the herbicide most extensively used for site preparation and conifer release. It is a broadspectrum herbicide and therefore crop safety is a critical issue. This study assessed the early effects of 14 different treatments, including no weed control, manual weed control, and 12 foliar-applied herbicide treatments at low,intermediate, high, and highest application rates and application timing on glyphosate phytotoxicity of containerized seedlings of Austrian pine(Pinus nigra J.F.Arnold.), Scots pine(P. sylvestris L.) and maritime pine(P.pinaster Aiton), conifer species widely used for afforestation and supplementary plantings in Turkish forestry. In general, Scots pine seedlings were tolerant to glyphosate compared to the other species. Glyphosate phytotoxicity varied significantly according to the time and rate of application. Seedlings were relatively tolerant to glyphosate in April whereas they were intolerant in May. The highest herbicide rate(1.2% v:v) was consistently phytotoxic to all species. Moreover, the effect of herbicide rate on seedling survival and growth varied significantly according to application date(i.e., application rate 9 date interaction). Seedlings appeared tolerant to glyphosate at low and intermediate rates(0.2, 0.4% v:v) between midspring and mid-summer, whereas they demonstrated significant sensitivity to the highest rate across all time periods. Glyphosate at the high rate(0.8% v:v) was particularly more phytotoxic when applied in May. Application of glyphosate at rates up to 0.8% could be recommended for weed control without significant pine damage in midspring when the needles presumably have a dense leaf epicuticular wax layer limiting herbicide penetration.Applications of 0.8 and 1.2% v:v are not recommended during May–June.展开更多
文摘M202, IR50 and advanced backcross (BC4F6) lines carrying the cold tolerance QTLs qCTS4 and qCTS12 were evaluated using three low temperature stress assays (constant, intermittent and constant with recovery period). Under constant stress, two BC4F6 lines (MIb 4853-9 and MIb 6885-2) exhibited differences in seedling growth and accumulation of stress-related compounds although both carry the two QTLs in the IRS0 background. Differences between these lines were also observed in the constant with recovery period assay, although both of them performed comparably under intermittent stress, MIb 6885-2 performed more similarly to M202 in the constant and constant with recovery period assays, suggesting that this line contains an introgressed region(s) not present in MIb 4853-9. The three assays were also applied to assess variations in cold tolerance in a set of diverse germplasms. Performance metrics and visual ratings were comparable for evaluating tolerance to constant stress. However, differences in response to intermittent stress were more evident from growth and total chlorophyll measurements than from visual ratings. With regard to the constant with recovery period assay, about 15% of the germplasm accessions did not recover. However, some lines which exhibited chilling injuries of comparable severity were able to overcome them. This recovery phenotype may improve rice performance in the field and warrant further investigation.
文摘The quantitative trait loci (QTLs) for cold tolerance relative characters were identified with microsatellite markers.Ten QTLs located on chromosome 1, 3, 4, 5, 6, 8, 9, 11(two)and 12 were detected for seedling height at different low temperature. Only 2 of these were detected at the same locus at four environments, 1 was significant at three environments, 6 were significant at two environments and 1 was significant at one environment. Seven QTLs located on chromosome 1(two), 2(two),5,6,8 were found for low temperature chlorosis resistance and five QTLs located on chromosome 3, 4, 7, 8, 11 resistant to chilling injury. The amount of variation explained by individual QTL ranged from 4.85%to 49.34%. There was no linkage relationship among the three characters, which indicates seedling cold tolerance is a complex character and is controlled by different QTLs.
文摘The rice variety Tesanai 2 is susceptible tochilling.Exposure of the seedlings grown at 28±1℃ and under a photo flux density(PFD)of30 μmol/m~2s to 1℃ and under a PFD of 150μmol/m~2s for 2 d caused a physiological disor-der called chilling injury which reduced the sur-vival rate to 50%.The experimental results in-
文摘In the Yangtze river aera,the first crop of indi-ca rice is sown in late Mar to early Apr andtransplanted in early May.Usually,seedlingsperish when abnormal low temperature of 6-10℃ lasted for 3 d or longer.The effect ofsocking seed with urea solution on increasingthe cold tolerance at the seedling stage was
基金funded by the Scientific Research Project Coordinator of Düzce University(Grant number BAP-2015.02.02.303)
文摘Glyphosate is the herbicide most extensively used for site preparation and conifer release. It is a broadspectrum herbicide and therefore crop safety is a critical issue. This study assessed the early effects of 14 different treatments, including no weed control, manual weed control, and 12 foliar-applied herbicide treatments at low,intermediate, high, and highest application rates and application timing on glyphosate phytotoxicity of containerized seedlings of Austrian pine(Pinus nigra J.F.Arnold.), Scots pine(P. sylvestris L.) and maritime pine(P.pinaster Aiton), conifer species widely used for afforestation and supplementary plantings in Turkish forestry. In general, Scots pine seedlings were tolerant to glyphosate compared to the other species. Glyphosate phytotoxicity varied significantly according to the time and rate of application. Seedlings were relatively tolerant to glyphosate in April whereas they were intolerant in May. The highest herbicide rate(1.2% v:v) was consistently phytotoxic to all species. Moreover, the effect of herbicide rate on seedling survival and growth varied significantly according to application date(i.e., application rate 9 date interaction). Seedlings appeared tolerant to glyphosate at low and intermediate rates(0.2, 0.4% v:v) between midspring and mid-summer, whereas they demonstrated significant sensitivity to the highest rate across all time periods. Glyphosate at the high rate(0.8% v:v) was particularly more phytotoxic when applied in May. Application of glyphosate at rates up to 0.8% could be recommended for weed control without significant pine damage in midspring when the needles presumably have a dense leaf epicuticular wax layer limiting herbicide penetration.Applications of 0.8 and 1.2% v:v are not recommended during May–June.
