Darwin’s theory of evolution believes that biological evolution is a process of natural selection. This theory has been supported by much evidence, but the internal biological mechanism is not clear. Here, I elaborat...Darwin’s theory of evolution believes that biological evolution is a process of natural selection. This theory has been supported by much evidence, but the internal biological mechanism is not clear. Here, I elaborate on the cycle of potassium resources on the earth and the biological utilization and efficiency, which may be the core mechanism of natural selection and affect the evolution of organisms and the development of human society.展开更多
Globally,salinity is a brutal environmental constraint that poses a major threat to agriculture worldwide,causing nutrient imbalances and oxidative stress,leading to reduced crop yields and quality.Date palm waste fro...Globally,salinity is a brutal environmental constraint that poses a major threat to agriculture worldwide,causing nutrient imbalances and oxidative stress,leading to reduced crop yields and quality.Date palm waste from the agro-industry is a major environmental problem,but its conversion to biochar for soil amendment could help alleviate the effects of salinity stress.Pepper is a commonly grown horticultural crop that is sensitive to salinity.That’s why the current experiment was conducted with the novel idea of exploring the potential use of biochar-based fertilizer derived from date palm waste as a mitigation strategy for salinity-related problems in pepper.The study was conducted as a pot experiment in a growth chamber under controlled conditions.The experiment con-sisted of four treatment groups:Control(no salinity stress);BM350E(biochar application only);NaCl(salinity stress without biochar application);BM350E+NaCl(combined biochar and salinity stress application).The soil was amended with biochar at a concentration of 3 g kg^(-1) soil and pepper seedlings were exposed to salinity stress with 150 mM NaCl for seven days.The morphological,biochemical,and physiological responses were then eval-uated.The use of BM350E biochar significantly improved plant growth under saline conditions,increasing shoot fresh weight by 9.41%,root fresh weight by 15.32%,shoot length by 5.22%,and root length by 12.57%.It also increased chlorophyll a(Chl.a)by 8.28%,chlorophyll b(Chl.b)by 80.20%,and carotenoids(Car)by 52.43%while increasing antioxidant enzyme activities.In conclusion,BM350E biochar has the potential to effectively mitigate the negative effects of salinity on pepper growth.展开更多
文摘Darwin’s theory of evolution believes that biological evolution is a process of natural selection. This theory has been supported by much evidence, but the internal biological mechanism is not clear. Here, I elaborate on the cycle of potassium resources on the earth and the biological utilization and efficiency, which may be the core mechanism of natural selection and affect the evolution of organisms and the development of human society.
基金This research was financially supported by the National Agency of Agricultural Research of the Czech Republic(Project No.QK22020008)the Technological Agency of the Czech Republic(Project No.TQ03000234)the Ministry of Agriculture(CR),institutional support MZERO0123.
文摘Globally,salinity is a brutal environmental constraint that poses a major threat to agriculture worldwide,causing nutrient imbalances and oxidative stress,leading to reduced crop yields and quality.Date palm waste from the agro-industry is a major environmental problem,but its conversion to biochar for soil amendment could help alleviate the effects of salinity stress.Pepper is a commonly grown horticultural crop that is sensitive to salinity.That’s why the current experiment was conducted with the novel idea of exploring the potential use of biochar-based fertilizer derived from date palm waste as a mitigation strategy for salinity-related problems in pepper.The study was conducted as a pot experiment in a growth chamber under controlled conditions.The experiment con-sisted of four treatment groups:Control(no salinity stress);BM350E(biochar application only);NaCl(salinity stress without biochar application);BM350E+NaCl(combined biochar and salinity stress application).The soil was amended with biochar at a concentration of 3 g kg^(-1) soil and pepper seedlings were exposed to salinity stress with 150 mM NaCl for seven days.The morphological,biochemical,and physiological responses were then eval-uated.The use of BM350E biochar significantly improved plant growth under saline conditions,increasing shoot fresh weight by 9.41%,root fresh weight by 15.32%,shoot length by 5.22%,and root length by 12.57%.It also increased chlorophyll a(Chl.a)by 8.28%,chlorophyll b(Chl.b)by 80.20%,and carotenoids(Car)by 52.43%while increasing antioxidant enzyme activities.In conclusion,BM350E biochar has the potential to effectively mitigate the negative effects of salinity on pepper growth.
