[ Objective] The paper was to optimize the optimal conditions for seed germination and seedling emergence of green foxtail [ Setar/a viridis ( L. ) Beauv. ], so as to solve the problem of serious damage caused by gr...[ Objective] The paper was to optimize the optimal conditions for seed germination and seedling emergence of green foxtail [ Setar/a viridis ( L. ) Beauv. ], so as to solve the problem of serious damage caused by green foxtail. [Method] Using the orthogenal test and the LSD method of software SPSS 18.0, with the number of emerged seedlings of green foxtail as the evaluation index, the influencing factors such as pretreatment of green foxtail, earth covering depth, soil temperature and soil moisture content were compared in the test. [Result] These four experimental factors had great impact on seed germination characteristics of green foxtail. The optimal scheme for seedling emergence of green foxtail was as follows: pretreatment of green foxtail for 3 d, earth covering depth 0.5 cm, soil temperature 32 ℃, soil moisture content 15%. The optimum condition was consistent with the actual situation of serious damage of green foxtail ( suffering moderate and heavy rainfall after sowing and before seedling of millet ). Avoiding sowing millet before moderate and heavy rainfall could effectively control serious damage of green fox'tail. [ Conclusion] The study provided theoretical support for effective control against the vicious weed green foxtail.展开更多
According to the summary of experiments for many years, application scope, prevention and control principle and objects of technical regulation for integrated prevention and control of weeds in millet fields, as well ...According to the summary of experiments for many years, application scope, prevention and control principle and objects of technical regulation for integrated prevention and control of weeds in millet fields, as well as integrated control technologies including agricultural control, physical control and chemical control were studied, and the specific methods and technical indicators were determined.展开更多
The paper was to study the effects of seeding rate, water and fertilizer ( N, P, K) coupling on grass yield of forage millet Jigu No. 18 (Setaria itlica). A quadratic regression otthogonal rotation combination wit...The paper was to study the effects of seeding rate, water and fertilizer ( N, P, K) coupling on grass yield of forage millet Jigu No. 18 (Setaria itlica). A quadratic regression otthogonal rotation combination with five factors was designed in pot experiment. The mathematical model between hay yield of forage millet (Y) and soil moisture content ( x1 ), N fertilizer (x2 ), P fertilizer (x3 ), K fertilizer (x4) and seeding rate (x5 ) was established to simulate optimization. The results showed that moisture content, seeding rate, P fertilizer and K fertilizer had important effects on hay yield. Soil moisture content had the biggest impact on yield, followed by seeding rate, P and K fertilizer. The coupling effects of various factors successively were moisture content / seeding rate 〉 K fertil- izer/seeding rate 〉 N / P fertilizer 〉 soil moisture/N fertilizer 〉 soil moisture/ P fertilizer. Moreover, the mathematical model, Y = 20 543. 756 - 565. 570xI -39. 942x2 -23. 102x3 -38. 470x4 - 151. 877x5 + 1. 052x^x2 + 1. 604xIx3 + 12. 953xt x5 - 0. 173x2x3 + 0. 737x4x5 - 2. 292x5^2, was established. The optimum soil moisture and seeding rate were determined as 10% andl5 kg/hm2, respectively. In this scheme, the hay yield was 14 037. 151 0 kg/hm^2 and the economic benefit was 13 887.15 yuan/hm^2 ; the income was increased by 23.68% ( 3 288.98 yuan/hm^2 ) compared to the optimal combination in the test. The results provided a theoretical basis and technical support for forage millet production in Hebei Province.展开更多
Weed management in summer season foxtall millet field was studied by evaluating weed damage and exploring competition between weeds and foxtail millet, and a few fitting models were simulated and compared by employing...Weed management in summer season foxtall millet field was studied by evaluating weed damage and exploring competition between weeds and foxtail millet, and a few fitting models were simulated and compared by employing field plot experiment and nonlinear regression analysis. The results showed that the millet yield losses and weed density were extremely significantly correlated. Among the tested models, the determination coefficient ( R2 ) of hyperbolic model was 0.997 12, and minimum residual sum of squares was 16.174, which was considered the optimal model to simulate the competition relation between weeds and millet. The predicted equation was Y = d/( 1. 733 + 0. 018d) ; the interspecific competitiveness of weeds was 0. 577 0 and the intraspecific competitiveness was 0.010 3 ; the maximum loss rate of millet yield was 55.56%. This study had established an analysis model with high gcodness-of-fit and practical prediction which could help weed management in summer season millet field.展开更多
基金Supported by Science and Technology Support Program of Hebei Province(09250307D)Special Fund for Agro-scientific Research in the Public Interest(20120304201)
文摘[ Objective] The paper was to optimize the optimal conditions for seed germination and seedling emergence of green foxtail [ Setar/a viridis ( L. ) Beauv. ], so as to solve the problem of serious damage caused by green foxtail. [Method] Using the orthogenal test and the LSD method of software SPSS 18.0, with the number of emerged seedlings of green foxtail as the evaluation index, the influencing factors such as pretreatment of green foxtail, earth covering depth, soil temperature and soil moisture content were compared in the test. [Result] These four experimental factors had great impact on seed germination characteristics of green foxtail. The optimal scheme for seedling emergence of green foxtail was as follows: pretreatment of green foxtail for 3 d, earth covering depth 0.5 cm, soil temperature 32 ℃, soil moisture content 15%. The optimum condition was consistent with the actual situation of serious damage of green foxtail ( suffering moderate and heavy rainfall after sowing and before seedling of millet ). Avoiding sowing millet before moderate and heavy rainfall could effectively control serious damage of green fox'tail. [ Conclusion] The study provided theoretical support for effective control against the vicious weed green foxtail.
基金Supported by Special Fund for Agro-scientific Research in the Public Interest(20120304201)Key Technology R&D Program of Hebei Province(09250307D)
文摘According to the summary of experiments for many years, application scope, prevention and control principle and objects of technical regulation for integrated prevention and control of weeds in millet fields, as well as integrated control technologies including agricultural control, physical control and chemical control were studied, and the specific methods and technical indicators were determined.
基金Special Fund for Agro-scientific Research in the Public Interest Research and Demonstration of Development and Utilization Technology of Forage Feed Resources in Pastoral Areas(20120304201)
文摘The paper was to study the effects of seeding rate, water and fertilizer ( N, P, K) coupling on grass yield of forage millet Jigu No. 18 (Setaria itlica). A quadratic regression otthogonal rotation combination with five factors was designed in pot experiment. The mathematical model between hay yield of forage millet (Y) and soil moisture content ( x1 ), N fertilizer (x2 ), P fertilizer (x3 ), K fertilizer (x4) and seeding rate (x5 ) was established to simulate optimization. The results showed that moisture content, seeding rate, P fertilizer and K fertilizer had important effects on hay yield. Soil moisture content had the biggest impact on yield, followed by seeding rate, P and K fertilizer. The coupling effects of various factors successively were moisture content / seeding rate 〉 K fertil- izer/seeding rate 〉 N / P fertilizer 〉 soil moisture/N fertilizer 〉 soil moisture/ P fertilizer. Moreover, the mathematical model, Y = 20 543. 756 - 565. 570xI -39. 942x2 -23. 102x3 -38. 470x4 - 151. 877x5 + 1. 052x^x2 + 1. 604xIx3 + 12. 953xt x5 - 0. 173x2x3 + 0. 737x4x5 - 2. 292x5^2, was established. The optimum soil moisture and seeding rate were determined as 10% andl5 kg/hm2, respectively. In this scheme, the hay yield was 14 037. 151 0 kg/hm^2 and the economic benefit was 13 887.15 yuan/hm^2 ; the income was increased by 23.68% ( 3 288.98 yuan/hm^2 ) compared to the optimal combination in the test. The results provided a theoretical basis and technical support for forage millet production in Hebei Province.
基金Supported by Science and Technology Support Program of Hebei Province(09250307D)Special Fund for Agro-scientific Research in the Public Interest (20120304201)
文摘Weed management in summer season foxtall millet field was studied by evaluating weed damage and exploring competition between weeds and foxtail millet, and a few fitting models were simulated and compared by employing field plot experiment and nonlinear regression analysis. The results showed that the millet yield losses and weed density were extremely significantly correlated. Among the tested models, the determination coefficient ( R2 ) of hyperbolic model was 0.997 12, and minimum residual sum of squares was 16.174, which was considered the optimal model to simulate the competition relation between weeds and millet. The predicted equation was Y = d/( 1. 733 + 0. 018d) ; the interspecific competitiveness of weeds was 0. 577 0 and the intraspecific competitiveness was 0.010 3 ; the maximum loss rate of millet yield was 55.56%. This study had established an analysis model with high gcodness-of-fit and practical prediction which could help weed management in summer season millet field.