Harish Urges Activation of Kaleshwaram Pumps to Save Wilting Crops

Quick Summary

• The Bharat Rashtra Samithi (BRS) leader and former minister for irrigation, T. Harish Rao, has criticized the Congress Chief Minister A.Revanth Reddy for allegedly politicizing issues related to the Kaleshwaram irrigation project in Telangana.
• Harish Rao stated that about 80 tmc ft of water is flowing past the Medigadda Barrage daily and refuted claims that it has collapsed. He pointed out that heavy rains in upstream Maharashtra and floods in Pranahita River tributaries have led to strong water flows, which are being managed effectively by the barrage despite accusations of its failure.
• He emphasized how standing crops like cotton are suffering due to deficient rainfall and reiterated his request to operate pump houses connected to Kaleshwaram Water Project infrastructure, claiming this could rescue crops by filling reservoirs within a week’s time.
• Harish Rao questioned why heavy vehicles still cross this supposedly “collapsed” barrage if claims were accurate and asked critical questions about related reservoirs’ role as part of the project.
• He accused Congress CM Revanth Reddy of withholding pump house operations allegedly because doing so would give credit to former CM K Chandrasekhar Rao, under whose leadership Kaleshwaram was initiated.

Indian opinion Analysis
The ongoing exchanges between opposition camps over Telangana’s flagship Kaleshwaram Water Project reflect deeper tensions regarding resource management amidst political dynamics prevalent in indian governance models today. Tensions like these arise when large public projects become a focal point for partisan narratives, with performance metrics contested repeatedly before election cycles or transitions.

The claims by both sides invite transparency measures – as factual information about operational efficacy or structural resilience could lay such disputes conclusively at rest while protecting broader public interest surrounding agricultural productivity sustainability especially during drought spells dependent on river ecosystem feeding complex-multi-part end-to-connected-lift-fed system