Newly released data from climate sensors across Boston shows that some neighborhoods experienced dangerous heat levels days before the city's official heat advisory, raising concerns about emergency planning preparedness. The findings, presented by a team of researchers, local organizations, and city officials, highlight disparities in heat exposure across the city and the need for more targeted interventions. The B-COOL project, a collaboration between various organizations, installed the sensors to better understand heat patterns and vulnerabilities. While prior heat mapping projects identified hotter areas, this data provides more detailed information about the duration and intensity of heat exposure. Researchers discovered that certain neighborhoods, like Dorchester, faced heat advisory temperatures for extended periods, exceeding the city's official declaration. Furthermore, even within neighborhoods, there are variations in temperature, with some pockets experiencing cooler temperatures. These findings will inform future investment strategies and improve communication with residents in vulnerable areas. City officials plan to enhance heat advisory protocols and provide more accessible information to residents, particularly in communities disproportionately affected by extreme heat.
when temperatures and humidity were expected to reach dangerous highs. But some neighborhoods had already reached that threshold days before, according to newly released data from climate sensors installed across the city.
While prior heat mapping projects, like Wicked Hot Boston and the Boston Heat Plan, showed some neighborhoods are hotter than others, the new data provides more details about locations and the duration of exposure to heat, researchers said. The discovery of cool spots was a surprise to Johnathan Lee, a Ph.D. student in environmental health at Boston University and the lead researcher on the project.
" This kind of data will really inform future investment in different neighborhoods that are really on the front lines of heat stress," Gambill said.
HEATWAVE CLIMATE CHANGE EMERGENCY PLANNING PUBLIC HEALTH URBAN HEAT
United States Latest News, United States Headlines
Similar News:You can also read news stories similar to this one that we have collected from other news sources.
2024 Shatters Heat Records, Marking Decade of Deadly HeatGlobal temperatures are expected to confirm 2024 as the hottest year on record, capping a decade of unprecedented heat fueled by rising greenhouse gas levels.
Read more »
Jimmy Butler and the Miami Heat: Trade Talks Heat UpDespite returning to action with the Miami Heat, Jimmy Butler has reiterated his trade request. The Heat have engaged in productive discussions about a potential trade, but his significant contract presents a challenge. While Butler prefers a move to the Phoenix Suns, various trade scenarios involving multiple teams are being explored. In the meantime, Butler remains active on the court, with everyone aware of the ongoing situation.
Read more »
Apple Might Switch to Samsung Image Sensors for iPhone 18Apple analyst Ming-Chi Kuo predicts Apple could start using Samsung's advanced 3-layer stacked image sensors in the iPhone 18 series, scheduled for release in 2026.
Read more »
A tour de force: Engineers discover new 'all-optical' nanoscale sensors of forceResearchers report that they have invented new nanoscale sensors of force. They are luminescent nanocrystals that can change intensity and/or color when you push or pull on them. These 'all-optical' nanosensors are probed with light only and therefore allow for fully remote read-outs -- no wires or connections are needed.
Read more »
iPhone 18 Rumored to Feature Samsung SensorsEarly rumors suggest the iPhone 18 series might ditch Sony sensors in favor of Samsung's advanced technology. The switch is expected to bring significant camera upgrades, potentially including a 3-layer stacked image sensor.
Read more »
Nanodiamond Sensors: Revolutionizing Quantum Sensing and BioimagingResearchers at Okayama University have developed a groundbreaking method for creating nanodiamond sensors with nitrogen-vacancy centers, paving the way for advanced quantum sensing and bioimaging applications. These sensors offer exceptional sensitivity for detecting minute changes in electrical, thermal, and magnetic fields, promising to revolutionize healthcare, technology, and environmental monitoring.
Read more »