Latest Articles

Popular Articles

Rice sheath blight control in paddy crops

Title: Effective Measures for Rice Sheath Blight Control in Paddy Crops

Introduction:
Rice sheath blight, caused by the fungus Rhizoctonia solani, is a significant threat to rice production worldwide. It can cause yield losses of up to 70% if not controlled properly. Therefore, implementing effective measures to combat this disease is crucial for maintaining the productivity and profitability of paddy crops. This article aims to provide valuable insights into various strategies that can be employed for rice sheath blight control.

1. Cultivar selection:
Choosing resistant varieties is an essential step in rice sheath blight management. Breeding programs have developed varieties that possess natural resistance to this disease. These cultivars help to reduce disease incidence and severity, ultimately minimizing economic losses. Farmers should consult with local agricultural extension services or research institutes to identify suitable resistant rice varieties for their specific regions.

2. Crop rotation and field sanitation:
Crop rotation can break the disease cycle as the fungus’s primary food source is limited. Avoid planting rice in consecutive seasons in the same field. Rotating rice crops with non-host plants, such as legumes or cereals, can help reduce the fungal population. Additionally, removing crop debris and plowing the fields thoroughly after harvesting can minimize the survival and spread of the pathogen.

3. Seed treatment and hygiene:
Treating rice seeds with an appropriate fungicide prior to planting helps eradicate any potential seedborne infections. Seed treatment serves as a preventive measure and can significantly reduce disease incidence. Additionally, ensuring high-quality seeds and avoiding contaminated or disease-infected seeds are crucial for preventing the introduction and spread of the pathogen.

4. Fungicide application:
When the disease pressure is high or under severe infestations, judicious and timely fungicide applications are necessary. Fungicides containing active ingredients like azoxystrobin, carbendazim, or tricyclazole offer effective control against rice sheath blight. However, it is important to strictly adhere to the recommended dosage, application schedule, and proper application techniques to prevent the development of fungicide resistance and minimize environmental impacts.

5. Cultural practices:
Implementing appropriate cultural practices can significantly reduce rice sheath blight incidence. Promoting good field drainage, maintaining optimum plant density, and proper spacing between plants encourage better air circulation, reducing the chances of fungal infection. Training farmers on the proper method of planting, fertilizer management, and water control can also contribute to minimizing disease occurrence.

6. Biological control:
Exploring the use of biocontrol agents has gained importance in recent years. Certain antagonistic bacteria and fungi, such as Bacillus spp., Trichoderma spp., and Pseudomonas spp. have shown significant potential in suppressing the growth of Rhizoctonia solani. Biocontrol agents can be applied as seed treatments, soil amendments, or foliar sprays, providing sustainable and environmentally friendly alternatives to synthetic fungicides.

Conclusion:
Rice sheath blight can cause severe damage to paddy crops, impacting farmers’ livelihoods and food security. Employing a combination of preventive and curative measures can go a long way in controlling this disease effectively. A holistic approach involving cultivar selection, cultural practices, seed treatment, fungicide applications, and exploration of biocontrol agents will provide sustainable solutions for managing rice sheath blight and ensuring stable rice production in paddy crops.

Share This Article :

No Thoughts on Rice sheath blight control in paddy crops