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Bharat-certis

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🌾 Protect your paddy, increase your yield – Choose Matsuri! 🌾
Matsuri: The Ultimate Solution for Sheath Blight in Paddy
Sheath blight is a major fungal disease affecting paddy crops, caused by Rhizoctonia solani. It spreads rapidly in humid conditions, leading to weak stems, reduced grain filling, and ultimately lower yield. Farmers often struggle to control this disease, but Matsuri offers an effective solution.
How to Identify Sheath Blight?
Oval, greenish-gray lesions on the leaf sheath.
Infected leaves dry out and die prematurely.
Weak tillers that fail to grow properly.
Disease spreads fast in dense, moist crop canopies.
Why Choose Matsuri?
Matsuri is a powerful fungicide designed to protect paddy from sheath blight. Here’s why it stands out:
✅ Dual Action: Works as both a preventive (before infection) and curative (after infection).
✅ Systemic Movement: Spreads upward and downward in the plant for complete protection.
✅ Long-Lasting Control: Offers 18-20 days of disease protection.
✅ Stronger Crop: Prevents lodging, keeps stems greener and firmer till harvest.
✅ Better Yield: Helps plants complete their life cycle with higher grain production.
Best Time to Apply Matsuri
1️⃣ First Spray (Preventive): 40-45 days after transplanting (DAT).
2️⃣ Second Spray (Curative): If symptoms appear, apply Matsuri immediately.
Conclusion
Sheath blight can severely impact paddy yield, but with Matsuri, farmers can safeguard their crops and ensure better productivity. Use Matsuri at the right stage for healthier plants and higher profits.
Severity of the infection of sheath blight disease can be very devastating problem to the farmer for rice cultivation. Some of these consequences are major yield losses. The objective to identify sustainable management options for sheath blight disease. Field experiments were conducted with cultivated variety Swarna during three consecutive kharif seasons belong to the area of Rajshahi zone at three locations (Paba, Baraigram, Patnitala). Two management systems viz. Floating debris with Folicur and Folicur with ½ MOP were used in three locations to compare their effectiveness against rice sheath blight disease. The highest fertile tiller hill-1 was recorded at Paba location using Floating debris with Folicur. Maximum disease incidence was recorded at Patnitala location and minimum disease incidence was found at Baraigram. Between two management Floating debris with Folicur was better than Folicur with ½ MOP to reduces the disease incidence at all locations. The highest yield was found at Paba location using Floating debris with Folicur. Between two management systems, Floating debris with Folicur was better than Folicur with ½ MOP (Muriate of potash) to increase yield. Considering the efficiency and eco-friendly it would be considered that Floating debris with Folicur was effective management for sheath blight disease of rice.
Bharat-certis
Severity of the infection of sheath blight disease can be very devastating problem to the farmer for rice cultivation. Some of these consequences are major yield losses. The objective to identify sustainable management options for sheath blight disease. Field experiments were conducted with cultivated variety Swarna during three consecutive kharif seasons belong to the area of Rajshahi zone at three locations (Paba, Baraigram, Patnitala). Two management systems viz. Floating debris with Folicur and Folicur with ½ MOP were used in three locations to compare their effectiveness against rice sheath blight disease. The highest fertile tiller hill-1 was recorded at Paba location using Floating debris with Folicur. Maximum disease incidence was recorded at Patnitala location and minimum disease incidence was found at Baraigram. Between two management Floating debris with Folicur was better than Folicur with ½ MOP to reduces the disease incidence at all locations. The highest yield was found at Paba location using Floating debris with Folicur. Between two management systems, Floating debris with Folicur was better than Folicur with ½ MOP (Muriate of potash) to increase yield. Considering the efficiency and eco-friendly it would be considered that Floating debris with Folicur was effective management for sheath blight disease of rice.

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Severity of the infection of sheath blight disease can be very devastating problem to the farmer for rice cultivation. Some of these consequences are major yield losses. The objective to identify sustainable management options for sheath blight disease. Field experiments were conducted with cultivated variety Swarna during three consecutive kharif seasons belong to the area of Rajshahi zone at three locations (Paba, Baraigram, Patnitala). Two management systems viz. Floating debris with Folicur and Folicur with ½ MOP were used in three locations to compare their effectiveness against rice sheath blight disease. The highest fertile tiller hill-1 was recorded at Paba location using Floating debris with Folicur. Maximum disease incidence was recorded at Patnitala location and minimum disease incidence was found at Baraigram. Between two management Floating debris with Folicur was better than Folicur with ½ MOP to reduces the disease incidence at all locations. The highest yield was found at Paba location using Floating debris with Folicur. Between two management systems, Floating debris with Folicur was better than Folicur with ½ MOP (Muriate of potash) to increase yield. Considering