With a career spanning over 20 years, Sagar Mysorekar brings deep expertise in Geographic Information Systems (GIS), spatial data analytics, applying AI tools for spatial analysis, and project management. He has worked with global organizations including The Nature Conservancy, Gojek, and Quantta Analytics, leading projects in biodiversity conservation, climate resilience, and infrastructure planning.
Sagar holds advanced degrees in geography and environmental sciences, and his work has been featured in multiple peer-reviewed journals, technical reports, and international conferences.
Stratageo is a geospatial consulting firm founded by Sagar Mysorekar, delivering location intelligence, spatial analytics , and mapping solutions for businesses, governments, and NGOs. We turn complex geospatial data into clear, actionable insights—supporting smarter decisions in market planning, environmental conservation, infrastructure development, and policy-making.
Scientific, data-driven evaluation of potential locations considering demographics, competition, accessibility, and market potential to reduce investment risks and maximize ROI.
Identify customer hotspots and enhance datasets with geographic, demographic, and behavioral insights to improve marketing precision and customer acquisition.
Customized location-based performance dashboards that reveal geographic patterns, optimize resource allocation, and uncover growth opportunities.
Integrated geospatial insights combining demographics, market potential, competitor mapping, and sustainability factors to strengthen business planning and market positioning.
Ortiz, A., Negandhi, D., Mysorekar, S.R., Shivaprakash, K.N., Kiesecker, J.M., Robinson, C., Bhatia, P., Khurana, A., Wang, J., Oviedo, F., Lavista Ferres, J. (2022). An Artificial Intelligence Dataset for Solar Energy Locations in India. Scientific Data, 9, 497. https://doi.org/10.1038/s41597-022-01499-9
Hall, K.R., Herbert, M.E., Sowa, S.P., Mysorekar, S., Woznicki, S.A., Nejadhashemi, P.A., Wang, L. (2017). Reducing Current and Future Risks: Using Climate Change Scenarios to Test an Agricultural Conservation Framework. Journal of Great Lakes Research, 43(1), 59–68. http://dx.doi.org/10.1016/j.jglr.2016.11.005
Jerde, C.L., Chadderton, W.L., Mahon, A.R., Renshaw, M.A., Corush, J., Budny, M.L., Mysorekar, S., Lodge, D.M. (2013). Detection of Asian Carp DNA as Part of a Great Lakes Basin-Wide Surveillance Program. Canadian Journal of Fisheries and Aquatic Sciences, 70(4), 522–526. http://dx.doi.org/10.1139/cjfas-2012-0478
Shivaprakash, K.N., Swami, N., Mysorekar, S., Arora, R., Gangadharan, A., Vohra, K., Jadeyegowda, M., Kiesecker, J.M. (2022). Potential for Artificial Intelligence (AI) and Machine Learning (ML) Applications in Biodiversity Conservation, Managing Forests, and Related Services in India. Sustainability, 14(12), 7154. https://doi.org/10.3390/su14127154
Sowa, S.P., Herbert, M., Mysorekar, S., Annis, G., Hall, K., Nejadhashemi, A.P., Woznicki, S.A., Wang, L.C., Doran, P.J. (2016). How Much Conservation is Enough? Defining Implementation Goals for Healthy Fish Communities in Agricultural Rivers. Journal of Great Lakes Research, 42(6), 1302–1321. http://dx.doi.org/10.1016/j.jglr.2016.09.011
Legge, J.T., Doran, P.J., Herbert, M.E., Asher, J., O’Neil, G., Mysorekar, S., Sowa, S., Hall, K.R. (2013). From Model Outputs to Conservation Action: Prioritizing Locations for Implementing Agricultural Best Management Practices in a Midwestern Watershed. Journal of Soil and Water Conservation, 68(1), 22–33. https://doi.org/10.2489/jswc.68.1.22
Pearsall, D., Carton de Grammont, P., Cavalieri, C., Chu, C., Doran, P., Elbing, L., Ewert, D., Hall, K., Herbert, M., Khoury, M., Kraus, D., Mysorekar, S., Paskus, J., Sasson, A. (2012). Returning to a Healthy Lake: Lake Erie Biodiversity Conservation Strategy. The Nature Conservancy, Nature Conservancy of Canada, Michigan Natural Features Inventory. 340 pp.
Sowa, S.P., Herbert, M., Cole, L., Mysorekar, S., Legge, J., Bowe, T., Nejadhashemi, A., Einheuser, M., Wang, L. (2011). Assessing Benefits of Conservation Practices to the Biological Integrity of Agricultural Streams in MI and WI. USDA NRCS Conservation Effects Assessment Project Final Report, 56 pp.
Pearsall, D., Carton de Grammont, P., Cavalieri, C., Doran, P., Elbing, L., Ewert, D., Hall, K., Herbert, M., Khoury, M., Mysorekar, S., Neville, S., Paskus, J., Sasson, A. (2012). Michigami: Great Water – Strategies to Conserve the Biodiversity of Lake Michigan. The Nature Conservancy, Michigan Natural Features Inventory. 309 pp.
Mysorekar, S.R., Sowa, S.P., Khoury, M., Doran, P., Fenner, J., Bogert, R., Seelbach, P. (2011). Great Lakes Information Management and Delivery System (GLIMDS). The Nature Conservancy – Conservation Science for People and Nature, Olive Branch, MS, October 19.
Sowa, S.P., Khoury, M., Mysorekar, S., Doran, P., Seelbach, P. (2011). Designing a Shared Great Lakes Information Management and Delivery System to Support Landscape Conservation. Upper Midwest–Great Lakes LCC Webinar, East Lansing, MI, February.
Lodge, D.M., et al. (2012). Global Introductions of Crayfishes: Evaluating the Impact of Species Invasions on Ecosystem Services. Annual Review of Ecology, Evolution, and Systematics, 43, 449–472.
Ramussen, J.L., et al. (2011). Dividing the Waters: The Case for Hydrologic Separation of the North American Great Lakes and Mississippi River Basins. Journal of Great Lakes Research, 37(3), 588–592.
Lodge, D.M., Jerde, C.L., Mahon, A.R., Chadderton, W.L., Barnes, M.A., McNulty, J. Aquatic Invasive Species Risk Assessment for the Chicago Sanitary and Ship Canal. USACE Environmental Labs Final Report, Vicksburg, MS.
Ewert, D.N., Hall, K.R., Wunderle Jr., J.M., Currie, D., Rockwell, S.M., Johnson, S., White, J.D. (2012). Duration and Rate of Spring Migration of Kirtland’s Warblers. Wilson Journal of Ornithology, 124, 9–14.
Jerde, C.L., Mahon, A.R., Chadderton, W.L., Lodge, D.M. (2011). ‘Sight-Unseen’ Detection of Rare Aquatic Species Using Environmental DNA. Conservation Letters, 4(2), 150–157.
Additional Contributions – Produced maps for 50+ public presentations, conferences, and online portals by researchers at The Nature Conservancy and multiple US state and federal agencies.
We had the opportunity to work with Sagar Mysorekar from Stratageo on the Location Suitability Analysis for EV charging stations in the APEPDCL region. His analytical rigor, technical expertise, and ability to integrate geospatial insights with real-world infrastructure needs were outstanding. The study identified over 400 potential sites near substations, providing APEPDCL with a clear roadmap for decision-making. We are also collaborating with Sagar on a high-level spatial analysis to map agrivoltaics potential across India. His professionalism, attention to detail, and commitment to delivering actionable outcomes make him an invaluable partner in advancing India’s clean mobility and energy transition goals.
Sagar’s work on the EV charging station suitability analysis was instrumental in helping APEPDCL identify optimal locations for developing EV charging stations. His methodical approach—combining GIS data, infrastructure mapping, and population projections—resulted in a high-quality analysis that directly supported our engagement with the APEPDCL. Beyond his technical skills, what stood out was his ability to communicate complex spatial insights in a way that was clear and actionable for decision-makers. His contribution has added real value to our efforts in supporting clean mobility and energy transition goals at the state level.
Mr. Sagar uses data science and analytics to arrive at a informed decision regarding the potential and viability of a project. This is specially suitable for retail brands and Commercial projects who wish to have a scientific judgement before starting their retail/commercial ventures in any part of the globe. His knowledge can be witnessed in the way he presents his interpretations of the available data points. Am sure many brands and ventures will make use of his knowledge at one or the other stage of their growth Journey !
Sagar’s work has fundamentally changed how we approach business growth. Using his expertise in location analytics, he didn't just give us data; he provided a strategic blueprint for future location expansion. He diagnosed the unique market challenges for our Banashankari clinic and gave us a clear, local strategy. More importantly, he used those insights to build a predictive model that proved our new Hosur location had a high potential for success. Sagar’s work helps us identify and fix problems with our current clinic locations and makes it much safer to open new ones.
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