Economic Importance and Yield Potential of Sugarcane in Pakistan

Sugarcane is mainly cultivated in the tropical and subtropical regions of the world, and nearly 85% of sugar is used worldwide. The area, production, and yield of sugarcane has been increased worldwide as well as in Pakistan as compared to other crops. It is the second largest economically important crop after cotton. It is a high-value cash crop that has significance for sugar industries in Pakistan. It contributes about 0.6% to the GDP and 2.9% of the total value added in agriculture. It creates huge revenue for the government and is used as a source of energy/power. The climate of Pakistan is favorable for sugarcane production in Punjab and Sindh provinces. Different climatic factors, i.e., sunlight, temperature, germination, tillering, growth, humidity, dew, frost, hailstorm, windstorm, sunburn, and drought, significantly affect the production of sugarcane. Pakistan is a principal cane-growing country and stands at the fifth position in the area, sixth position in cane sugar production, and ninth largest sugar producer in the world. This chapter describes the economic importance, climate, and yield potential of sugarcane in Pakistan

Nitrogen Cycling Dynamics: Investigating Volatilization and its Interplay with N2 Fixation

The nitrogen cycle is the biogeochemical cycle by which nitrogen is converted into multiple chemical forms as it circulates among atmospheric, terrestrial, and marine ecosystems, the conversion of nitrogen can be carried out through both biological and physical processes. Important processes in the nitrogen cycle include fixation, ammonification, nitrification, and denitrification. The majority of Earth\u27s atmosphere (78%) is atmospheric nitrogen, making it the largest source of nitrogen. However, atmospheric nitrogen has limited availability for biological use, leading to a scarcity of usable nitrogen in many types of ecosystems. The nitrogen cycle is of particular interest to ecologists because nitrogen availability can affect the rate of key ecosystem processes, including primary production and decomposition. Human activities such as fossil fuel combustion, use of artificial nitrogen fertilizers, and release of nitrogen in wastewater have dramatically altered the global nitrogen cycle. Human modification of the global nitrogen cycle can negatively affect the natural environment system and also human health. Volatilization and its Relationship to N2 fascination in Nitrogen Cycle in agriculture field is discuss in this paper

Improving biological control of stalk borers in sugarcane by applying silicon as a soil amendment

The sugarcane stalk borers, Sesamia spp. (Lepidoptera: Noctuidae) are the most destructive sugarcane insect pests in Iran. The efficiency of Telenomus busseolae Gahan (Hymenoptera: Scelionidae) used alone or in combination with silicon fertilization was investigated for controlling the sugarcane stalk borers under field conditions. The treatments were: a combination of silicon plus multiple releases of 2,500 T. busseolae, and multiple releases of 5,000, 2,500 and 1,250 T. busseolae alone. Plots receiving no soil amendment or parasites were included as the controls. Three weeks after the first application of each treatment, 100 shoots were selected randomly from each plot and the percentage of dead heart was determined. Then, three months after the first application of parasites, the percentage of stalks damaged, the percentage of internodes bored, and the level of parasitism were determined. Finally, at harvest the percentage of stalks damaged, the percentage of internodes bored, and sugarcane quality characteristics were determined. Results indicated that the efficiency of parasitism increased when combined with an application of silicon fertilizer. The release of 2,500 T. busseolae followed by an application of silicon fertilizer decreased dead hearts to 4%, while 12% dead hearts was observed in the control plots. For the combination treatment, the percentages of stalk damage were 1.5% and 17.2%, at 3 weeks and 3 months after time release, respectively. However, the percentages of stalk damage were 35.2% and 51% when no treatment was applied. Cane quality was significantly higher with the application of silicon fertilizer plus the release of 2,500 T. busseolae, followed by releasing 5,000 Hymenoptera. The level of parasitism was also greater when parasites were released in combination with an application of silicon. We conclude that biological control by egg parasitoids can be enhanced with concurrent applications of silicon fertilizer as a soil amendment and thereby creating a more robust, Integrated Pest Management (IPM) program of stalk borers in Iranian sugarcane fields