Background Cotton crop is infested by numerous arthropod pests from sowing to harvesting,causing substantial direct and indirect yield losses.Knowledge of seasonal population trends and the relative occurrence of pest...Background Cotton crop is infested by numerous arthropod pests from sowing to harvesting,causing substantial direct and indirect yield losses.Knowledge of seasonal population trends and the relative occurrence of pests and their natural enemies is required to minimize the pest population and yield losses.In the current study,analysis of the seasonal population trend of pests and natural enemies and their relative occurrence on cultivars of three cotton species in Central India has been carried out.Results A higher number and diversity of sucking pests were observed during the vegetative cotton growth stage(60 days after sowing),declining as the crop matured.With the exception of cotton jassid(Amrasca biguttula biguttula Ishida),which caused significant crop damage mainly from August to September;populations of other sucking insects seldom reached economic threshold levels(ETL)throughout the studied period.The bollworm complex populations were minimal,except for the pink bollworm(Pectinophora gossypiella Saunders),which re-emerged as a menace to cotton crops during the cotton cropping season 2017–2018 due to resistance development against Bt-cotton.A reasonably good number of predatory arthropods,including coccinellids,lacewings,and spiders,were found actively preying on the arthropod pest complex of the cotton crop during the early vegetative growth stage.Linear regression indicates a significant relationship between green boll infestations and pink bollworm moths in pheromone traps.Multiple linear regression analyse showed mean weekly weather at one-or two-week lag periods had a significant impact on sucking pest population(cotton aphid,cotton jassid,cotton whitefly,and onion thrips)fluctuation.Gossypium hirsutum cultivars RCH 2 and DCH 32,and G.barbadense cultivar Suvin were found susceptible to cotton jassid and onion thrips.Phule Dhanvantary,an G.arboreum cotton cultivar,demonstrated the highest tolerance among all evaluated cultivars against all sucking pests.Conclusion These findings have important implications for pest management in cotton crops.Susceptible cultivars warrant more attention for plant protection measures,making them more input-intensive.The choice of appropriate cultivars can help minimize input costs,thereby increasing net returns for cotton farmers.展开更多
Background Under K deficiency the uptake and distribution pattern in plant cells is mediated through different transport proteins and channels which were controlled by specific gene family.Therefore,a hydroponic exper...Background Under K deficiency the uptake and distribution pattern in plant cells is mediated through different transport proteins and channels which were controlled by specific gene family.Therefore,a hydroponic experiment was conducted under control condition for testing the gene expression pattern of the K transporter under adequate and low K supply levels.After that,a 2-year field experiment was conducted to evaluate five selected cotton cultivars(four K-efficient cultivars,viz.,CIM-554,CYTO-124,FH-142,IUB-2013,and one K non-efficient,BH-212) screened from the initial hydroponics culture experiment and two levels of potassium(0 K_(2)O kg·ha^(-1) and 50 K_(2)O kg·ha^(-1)) were tested under reduced irrigation(50% available water content;50 AWC) and normal irrigation conditions(100% available water content;100 AWC).Result Results revealed that the transcript levels of GhHAK5aD in roots were significantly higher in K^(+) efficient cultivars than that in K^(+) non-efficient cultivars.The GhHAK5aD expression upon K^(+) deficiency was higher in roots but lower in shoots,indicating that GhHAK5aD could have a role in K^(+) uptake in roots,instead of transport of K^(+) from root to shoot.Similarly,under field conditions the cultivar FH-142 showed an increase of 22.3%,4.9%,2.4%,and 1.4% as compared with BH-212,IUB-2013,CYTO-124,and CIM-554,respectively,in seed cotton yield(SCY) with K application under reduced irrigation conditions.With applied K,the FH-142 showed an increase in net photosynthetic rate by 57.3% as compared with the rest of the cultivars under reduced irrigation over K control.However,the overall performance indicators of K-efficient cultivars like FH-142,CYTO-124,CIM-554,and IUB-2013 were better than BH-212(K in-efficient) under reduced irrigation conditions with applied K at 50 kg·ha^(-1).Fiber quality trait improved significantly with K application under water deficit.The increase in micronaire was 3.6%,4.7%,7.8%,3.4%,and 6.7% in BH-212,IUB-2013,CIM-554,CYTO-124,and FH-142,respectively,with K application at 50 kg·ha^(-1) over without K application under reduced irrigation conditions during the cotton growing season.Similarly,the cultivars FH-142 increased by 12% with K application under reduced irrigation as compared with other cultivars.The performance of K-efficient cultivars under reduced irrigation conditions was 30% better in SCY and quality traits with the application of K at 50 kg·ha^(-1) as compared with K-non-efficient cultivars.Similarly,water use efficiency(WUE)(40.1%) and potassium use efficiency(KUE)(20.2%) were also noted higher in case of FH-142 as compared with other cultivar with K application under reduced conditions.Conclusion Higher expression of GhHAK5aD gene was observed in K-efficient cultivars as compared with K-nonefficient cultivars in roots indicates that GhHAK5aD may be contributing to genotypic differences for K^(+) efficiency in cotton.K-efficient cotton cultivars can be used for the low-K environments and can also be recommended for general cultivars.展开更多
This experiment was carried out at Mansehra during cropping season of 2013. There were three French bean cultivars and four different plant spacings. The experiment was laid out on a Randomized Complete Block Design ...This experiment was carried out at Mansehra during cropping season of 2013. There were three French bean cultivars and four different plant spacings. The experiment was laid out on a Randomized Complete Block Design (RCBD) with three replications. Different cultivars, plant spacings and their interactions significantly influenced all the parameters studied. Maximum days to flowering (59.33) and seed maturity (97.66) were recorded in cultivar Komal Green grown at 15 cm spacing, while, maximum 100-grain weight (42.20 g) was noted in cultivar Peshawar Local grown at 60 cm spacing. However, maximum fresh pod yield·plant^-1 (109.67 g), number of seed·pod^-1 (7.99) and seed yield.hm2 (1 4373 kg) were recorded in cultivar Paulista grown at spacing of 45 cm. Whereas, maximum plant height (40.50 cm) was noticed in cultivar Paulista grown at 15 era plant spacing. While, the least number of days to flowering (50.33) and to seed maturity (85.66) were taken by cultivar Paulista grown at 60 cm plant spacing. Likewise, minimum seed yield (311.9 kg·hm^2) was recorded in plants of cultivar Komal Green spaced at 60 cm plant spacing. While, minimum fresh pod weight, plantI (67.00 g) and number of seed·pod^-1 (4.66) were attained in cultivar Peshawar Local grown at 15 cm plant spacing, whereas, minimum plant height (27.59 cm) and 100-grain weight (15.60 g) were recorded for cultivar Komal Green grown at 45 and 15 cm, respectively.展开更多
Root C and root-released C are closely related to soil organic matter content and mechanistic simulation modeling has proven to be useful for studying root and soil organic C dynamics in plant-soil ecosystems. A compu...Root C and root-released C are closely related to soil organic matter content and mechanistic simulation modeling has proven to be useful for studying root and soil organic C dynamics in plant-soil ecosystems. A computer model was designed in this study to simulate the dynamics of root C and root released C decomposition in situ and the dynamics of different forms of C in soil under two barley cultivars (Abee and Samson). The results showed that on the 15th day, about 48% of the total 14C fixed in roots was respired for Abee and 42% for Samson. This indicated that the turnover rate of root ^14C of Abee was higher than that of Samson. The percentage of water-soluble organic ^14C, active microbial ^14C and stable ^14C over the total fixed ^14C were not different between two barley cultivars. From the analysis of the model for two barley cultivars, the total ~4C transformed into different soil pools (excluding CO:-C and root C pools) for the two barley cultivars was similar (26% for Abee and 25% for Samson), but the difference of ^14C remaining in soil between the two barley cultivars was mainly because of the difference of ^14C remaining in roots which have not been yet decomposed. Some of the information which could not be measured in the laboratory conditions was obtained in this studv.展开更多
Phenylalanin ammonia-lyase(PAL) plays a pivotal role in the production of phenolic compounds,which are responsible for the success of the defense strategies in harsh environments in response to different stimuli.Measu...Phenylalanin ammonia-lyase(PAL) plays a pivotal role in the production of phenolic compounds,which are responsible for the success of the defense strategies in harsh environments in response to different stimuli.Measurements of the PAL activity,total phenolics,total flavonoids and anthocyanin contents were performed in flowers,leaves and fruits of three pistachio cultivars "Ahmadaghaii","Ohadi" and "Kallehghuchi".The results showed that PAL activity was different in cultivars and in plant organs of pistachio trees(flowers,leaves and fruits).The highest activity rate of their compounds was observed in Ahmadaghaii cultivar.A positive correlation was observed between PAL activity,total phenolics and total flavonoids in leaves,and a negative correlation between PAL activity and anthocyanin contents in leaves and flowers of Ahmadaghaii cultivar.PAL activity and total phenolics in fruits of pistachio suffered a decrease when the maturation processes began.It is suggested that the hulls of the pistachio fruits,containing high level of phenolic compounds(especially in Ahmadaghaii cultivar),may function as a protective layer of defense chemicals against ultraviolet radiation and pathogens.The final concentration of phenolic compounds,flavonoids and antocyanins in the kernel depend on PAL activity in the kernel's cultivar.The results led to the conclusion that increase in PAL activity,phenolic compounds and flavonoids in Ahmadaghaii can help the plant to cope with the stresses better than the other cultivars.Since phenolic compounds are antioxidant and scavenge free oxygen,it is postulated that Ahmadaghaii is the most resistant cultivar to the environmental stresses.展开更多
基金Funding support for the Crop Pest Surveillance and Advisory Project(CROPSAP)。
文摘Background Cotton crop is infested by numerous arthropod pests from sowing to harvesting,causing substantial direct and indirect yield losses.Knowledge of seasonal population trends and the relative occurrence of pests and their natural enemies is required to minimize the pest population and yield losses.In the current study,analysis of the seasonal population trend of pests and natural enemies and their relative occurrence on cultivars of three cotton species in Central India has been carried out.Results A higher number and diversity of sucking pests were observed during the vegetative cotton growth stage(60 days after sowing),declining as the crop matured.With the exception of cotton jassid(Amrasca biguttula biguttula Ishida),which caused significant crop damage mainly from August to September;populations of other sucking insects seldom reached economic threshold levels(ETL)throughout the studied period.The bollworm complex populations were minimal,except for the pink bollworm(Pectinophora gossypiella Saunders),which re-emerged as a menace to cotton crops during the cotton cropping season 2017–2018 due to resistance development against Bt-cotton.A reasonably good number of predatory arthropods,including coccinellids,lacewings,and spiders,were found actively preying on the arthropod pest complex of the cotton crop during the early vegetative growth stage.Linear regression indicates a significant relationship between green boll infestations and pink bollworm moths in pheromone traps.Multiple linear regression analyse showed mean weekly weather at one-or two-week lag periods had a significant impact on sucking pest population(cotton aphid,cotton jassid,cotton whitefly,and onion thrips)fluctuation.Gossypium hirsutum cultivars RCH 2 and DCH 32,and G.barbadense cultivar Suvin were found susceptible to cotton jassid and onion thrips.Phule Dhanvantary,an G.arboreum cotton cultivar,demonstrated the highest tolerance among all evaluated cultivars against all sucking pests.Conclusion These findings have important implications for pest management in cotton crops.Susceptible cultivars warrant more attention for plant protection measures,making them more input-intensive.The choice of appropriate cultivars can help minimize input costs,thereby increasing net returns for cotton farmers.
文摘Background Under K deficiency the uptake and distribution pattern in plant cells is mediated through different transport proteins and channels which were controlled by specific gene family.Therefore,a hydroponic experiment was conducted under control condition for testing the gene expression pattern of the K transporter under adequate and low K supply levels.After that,a 2-year field experiment was conducted to evaluate five selected cotton cultivars(four K-efficient cultivars,viz.,CIM-554,CYTO-124,FH-142,IUB-2013,and one K non-efficient,BH-212) screened from the initial hydroponics culture experiment and two levels of potassium(0 K_(2)O kg·ha^(-1) and 50 K_(2)O kg·ha^(-1)) were tested under reduced irrigation(50% available water content;50 AWC) and normal irrigation conditions(100% available water content;100 AWC).Result Results revealed that the transcript levels of GhHAK5aD in roots were significantly higher in K^(+) efficient cultivars than that in K^(+) non-efficient cultivars.The GhHAK5aD expression upon K^(+) deficiency was higher in roots but lower in shoots,indicating that GhHAK5aD could have a role in K^(+) uptake in roots,instead of transport of K^(+) from root to shoot.Similarly,under field conditions the cultivar FH-142 showed an increase of 22.3%,4.9%,2.4%,and 1.4% as compared with BH-212,IUB-2013,CYTO-124,and CIM-554,respectively,in seed cotton yield(SCY) with K application under reduced irrigation conditions.With applied K,the FH-142 showed an increase in net photosynthetic rate by 57.3% as compared with the rest of the cultivars under reduced irrigation over K control.However,the overall performance indicators of K-efficient cultivars like FH-142,CYTO-124,CIM-554,and IUB-2013 were better than BH-212(K in-efficient) under reduced irrigation conditions with applied K at 50 kg·ha^(-1).Fiber quality trait improved significantly with K application under water deficit.The increase in micronaire was 3.6%,4.7%,7.8%,3.4%,and 6.7% in BH-212,IUB-2013,CIM-554,CYTO-124,and FH-142,respectively,with K application at 50 kg·ha^(-1) over without K application under reduced irrigation conditions during the cotton growing season.Similarly,the cultivars FH-142 increased by 12% with K application under reduced irrigation as compared with other cultivars.The performance of K-efficient cultivars under reduced irrigation conditions was 30% better in SCY and quality traits with the application of K at 50 kg·ha^(-1) as compared with K-non-efficient cultivars.Similarly,water use efficiency(WUE)(40.1%) and potassium use efficiency(KUE)(20.2%) were also noted higher in case of FH-142 as compared with other cultivar with K application under reduced conditions.Conclusion Higher expression of GhHAK5aD gene was observed in K-efficient cultivars as compared with K-nonefficient cultivars in roots indicates that GhHAK5aD may be contributing to genotypic differences for K^(+) efficiency in cotton.K-efficient cotton cultivars can be used for the low-K environments and can also be recommended for general cultivars.
文摘This experiment was carried out at Mansehra during cropping season of 2013. There were three French bean cultivars and four different plant spacings. The experiment was laid out on a Randomized Complete Block Design (RCBD) with three replications. Different cultivars, plant spacings and their interactions significantly influenced all the parameters studied. Maximum days to flowering (59.33) and seed maturity (97.66) were recorded in cultivar Komal Green grown at 15 cm spacing, while, maximum 100-grain weight (42.20 g) was noted in cultivar Peshawar Local grown at 60 cm spacing. However, maximum fresh pod yield·plant^-1 (109.67 g), number of seed·pod^-1 (7.99) and seed yield.hm2 (1 4373 kg) were recorded in cultivar Paulista grown at spacing of 45 cm. Whereas, maximum plant height (40.50 cm) was noticed in cultivar Paulista grown at 15 era plant spacing. While, the least number of days to flowering (50.33) and to seed maturity (85.66) were taken by cultivar Paulista grown at 60 cm plant spacing. Likewise, minimum seed yield (311.9 kg·hm^2) was recorded in plants of cultivar Komal Green spaced at 60 cm plant spacing. While, minimum fresh pod weight, plantI (67.00 g) and number of seed·pod^-1 (4.66) were attained in cultivar Peshawar Local grown at 15 cm plant spacing, whereas, minimum plant height (27.59 cm) and 100-grain weight (15.60 g) were recorded for cultivar Komal Green grown at 45 and 15 cm, respectively.
文摘Root C and root-released C are closely related to soil organic matter content and mechanistic simulation modeling has proven to be useful for studying root and soil organic C dynamics in plant-soil ecosystems. A computer model was designed in this study to simulate the dynamics of root C and root released C decomposition in situ and the dynamics of different forms of C in soil under two barley cultivars (Abee and Samson). The results showed that on the 15th day, about 48% of the total 14C fixed in roots was respired for Abee and 42% for Samson. This indicated that the turnover rate of root ^14C of Abee was higher than that of Samson. The percentage of water-soluble organic ^14C, active microbial ^14C and stable ^14C over the total fixed ^14C were not different between two barley cultivars. From the analysis of the model for two barley cultivars, the total ~4C transformed into different soil pools (excluding CO:-C and root C pools) for the two barley cultivars was similar (26% for Abee and 25% for Samson), but the difference of ^14C remaining in soil between the two barley cultivars was mainly because of the difference of ^14C remaining in roots which have not been yet decomposed. Some of the information which could not be measured in the laboratory conditions was obtained in this studv.
基金Shahid Bahonar University for providing research funds and Iran's Pistachio Research Institute (IPRI) for providing the research material
文摘Phenylalanin ammonia-lyase(PAL) plays a pivotal role in the production of phenolic compounds,which are responsible for the success of the defense strategies in harsh environments in response to different stimuli.Measurements of the PAL activity,total phenolics,total flavonoids and anthocyanin contents were performed in flowers,leaves and fruits of three pistachio cultivars "Ahmadaghaii","Ohadi" and "Kallehghuchi".The results showed that PAL activity was different in cultivars and in plant organs of pistachio trees(flowers,leaves and fruits).The highest activity rate of their compounds was observed in Ahmadaghaii cultivar.A positive correlation was observed between PAL activity,total phenolics and total flavonoids in leaves,and a negative correlation between PAL activity and anthocyanin contents in leaves and flowers of Ahmadaghaii cultivar.PAL activity and total phenolics in fruits of pistachio suffered a decrease when the maturation processes began.It is suggested that the hulls of the pistachio fruits,containing high level of phenolic compounds(especially in Ahmadaghaii cultivar),may function as a protective layer of defense chemicals against ultraviolet radiation and pathogens.The final concentration of phenolic compounds,flavonoids and antocyanins in the kernel depend on PAL activity in the kernel's cultivar.The results led to the conclusion that increase in PAL activity,phenolic compounds and flavonoids in Ahmadaghaii can help the plant to cope with the stresses better than the other cultivars.Since phenolic compounds are antioxidant and scavenge free oxygen,it is postulated that Ahmadaghaii is the most resistant cultivar to the environmental stresses.
