Impact frameworks can help track and substantiate sustainable land use investment projects.
Find out how in our blog, showcasing 2⃣ case studies of work by @simfinanceuk and @Agri3F, supported by UNEP-WCMC and @UNEP ⤵️eu1.hubs.ly/H05qvZ-0
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Find out how in our blog, showcasing 2⃣ case studies of work by @simfinanceuk and @Agri3F, supported by UNEP-WCMC and @UNEP ⤵️eu1.hubs.ly/H05qvZ-0
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How impact frameworks can substantiate sustainable land use investing: two case studies - UNEP-WCMC
Joanna Wolstenholme, Programme Officer in UNEP-WCMC’s Nature Economy team, explores key considerations for impact investors, with help from two new real world case studies How easy is it for financiers looking to invest for environmental and social impact…
RT @WorldResources: One of the most promising areas for climate action has been largely overlooked: the ocean🌊
New analysis shows the ocean can provide up to 35% of emission cuts needed in 2050 to keep global temperature rise below 1.5°C. #OceanAction wri.org/insights/ocean-based…
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New analysis shows the ocean can provide up to 35% of emission cuts needed in 2050 to keep global temperature rise below 1.5°C. #OceanAction wri.org/insights/ocean-based…
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Tropical Storm Philippe continues its westward path in the Atlantic Ocean.
The storm is expected to bring heavy rainfall to the northeastern Caribbean islands beginning Friday.
CIRA
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The storm is expected to bring heavy rainfall to the northeastern Caribbean islands beginning Friday.
CIRA
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#ICYMI: Arctic sea ice in 2023 was the 6th lowest on record. 🧊 @nasa and @nsidc reported that Arctic sea ice likely reached its annual minimum extent of 1.63 million square miles (4.23 million square kilometers) on Sept. 19, 2023. go.nasa.gov/465dlwJ
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Some highlights from the first day of the meeting of the Advisory Committee on Resource Mobilization, in Kinshasa🌱
This meeting will pave the way for tangible solutions, innovative funding mechanisms, effective partnerships, & help move the #KMGBF from #AgreementToAction👏
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This meeting will pave the way for tangible solutions, innovative funding mechanisms, effective partnerships, & help move the #KMGBF from #AgreementToAction👏
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The transition to low-carbon urban mobility calls for a system-wide approach involving:
🗺️Rethinking land use and planning
🚇More resources for urban #transport
🤝🏻Collab between public & private sectors
⌚Planning more efficient services
Learn more: wrld.bg/FXRP50POujo
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🗺️Rethinking land use and planning
🚇More resources for urban #transport
🤝🏻Collab between public & private sectors
⌚Planning more efficient services
Learn more: wrld.bg/FXRP50POujo
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RT @NASA_LSP: 🚀Happy Launchiversary Landsat 9! #OTD in 2021, Landsat 9 launched from @SLDelta30 on a @ULALaunch Atlas V!
Landsat - a partnership between NASA & @USGS continues the critical role in monitoring, understanding, and managing land resources needed to sustain human life.
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Landsat - a partnership between NASA & @USGS continues the critical role in monitoring, understanding, and managing land resources needed to sustain human life.
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Plastic pollution threatens our planet's #biodiversity.
Together, we can create a more sustainable future and protect the biodiversity that all life depends on 🐯🐮🐜🐞🐋🌱🌳🌍
Together we can #BeatPlasticPollution
Via @UNDP_Bhutan
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Together, we can create a more sustainable future and protect the biodiversity that all life depends on 🐯🐮🐜🐞🐋🌱🌳🌍
Together we can #BeatPlasticPollution
Via @UNDP_Bhutan
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RT @greenpeacemx: 🔴 ¡En acción! Subimos al Hidden Gem, un monstruoso buque minero que podría acabar con la vida en el fondo del mar para exigir un alto a la minería submarina.
Tú también puedes unirte a este movimiento, firma la petición para detenerlos: act.gp/46jfcOd
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Tú también puedes unirte a este movimiento, firma la petición para detenerlos: act.gp/46jfcOd
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Sept 27: As TS #Philippe moves westward, seas will continue to be above 12 ft over the next few days, dropping below 12 ft by Sat morning. However, the next system @NHC_Atlantic is monitoring behind Philippe will produce very rough to high seas in the coming days.
NHC_TAFB
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NASA-Led Study Pinpoints Areas of New York City Sinking, Rising
In Brief:
Scientists using space-based radar found that land in New York City is sinking at varying rates from human and natural factors. A few spots are rising.
Parts of the New York City metropolitan area are sinking and rising at different rates due to factors ranging from land-use practices to long-lost glaciers, scientists have found. While the elevation changes seem small – fractions of inches per year – they can enhance or diminish local flood risk linked to sea level rise.
The new study was published Wednesday in Science Advances by a team of researchers from NASA’s Jet Propulsion Laboratory in Southern California and Rutgers University in New Jersey. The team analyzed upward and downward vertical land motion – also known as uplift and subsidence – across the metropolitan area from 2016 to 2023 using a remote sensing technique called interferometric synthetic aperture radar (InSAR). The technique combines two or more 3D observations of the same region to reveal surface motion or topography.
Much of the motion they observed occurred in areas where prior modifications to Earth’s surface – such as land reclamation and the construction of landfills – made the ground looser and more compressible beneath subsequent buildings.
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Some of the motion is also caused by natural processes dating back thousands of years to the most recent ice age. About 24,000 years ago, a huge ice sheet spread across most of New England, and a wall of ice more than a mile high covered what is today Albany in upstate New York. Earth’s mantle, somewhat like a flexed mattress, has been slowly readjusting ever since. New York City, which sits on land that was raised just outside the edge of the ice sheet, is now sinking back down.
<picturehttps://climate.nasa.gov/internal_resources/2720/Map_of_vertical_land_motion_in_NYC.jpeg Mapping vertical land motion across the New York City area, researchers found the land sinking (indicated in blue) by about (0.06) (1.6 millimeters) per year on average. They also detected modest uplift (shown in red) in Queens and Brooklyn. White dotted lines indicate county/borough borders. Credit: NASA/JPL-Caltech/Rutgers University
The scientists found that on average the metropolitan area subsided by about 0.06 inches (1.6 millimeters) per year – about the same amount that a toenail grows in a month. Using the radars on the ESA (European Space Agency) Sentinel-1 satellites, along with advanced data processing techniques, they mapped the motion in detail and pinpointed neighborhoods and landmarks – down to an airport runway and tennis stadium – that are subsiding more rapidly than the average.
“We’ve produced such a detailed map of vertical land motion in the New York City area that there are features popping out that haven’t been noticed before,” said lead author Brett Buzzanga, a postdoctoral researcher at JPL.
David Bekaert, a JPL scientist and lead investigator of the project, said that tracking local elevation changes and relative sea level can be important for flood mapping and planning purposes. This is especially critical as Earth’s changing climate pushes oceans higher around the world, leading to more frequent nuisance flood events and exacerbating destructive storm surges.
Local Changes
The team identified two notable hot spots of subsidence co-located with landfills in Queens. One, runway 13/31 at LaGuardia Airport, is subsiding at a rate of about 0.15 inches (3.7 millimeters) per year. The scientists noted that[...]
In Brief:
Scientists using space-based radar found that land in New York City is sinking at varying rates from human and natural factors. A few spots are rising.
Parts of the New York City metropolitan area are sinking and rising at different rates due to factors ranging from land-use practices to long-lost glaciers, scientists have found. While the elevation changes seem small – fractions of inches per year – they can enhance or diminish local flood risk linked to sea level rise.
The new study was published Wednesday in Science Advances by a team of researchers from NASA’s Jet Propulsion Laboratory in Southern California and Rutgers University in New Jersey. The team analyzed upward and downward vertical land motion – also known as uplift and subsidence – across the metropolitan area from 2016 to 2023 using a remote sensing technique called interferometric synthetic aperture radar (InSAR). The technique combines two or more 3D observations of the same region to reveal surface motion or topography.
Much of the motion they observed occurred in areas where prior modifications to Earth’s surface – such as land reclamation and the construction of landfills – made the ground looser and more compressible beneath subsequent buildings.
Get NASA's Climate Change News
<svg<path
Some of the motion is also caused by natural processes dating back thousands of years to the most recent ice age. About 24,000 years ago, a huge ice sheet spread across most of New England, and a wall of ice more than a mile high covered what is today Albany in upstate New York. Earth’s mantle, somewhat like a flexed mattress, has been slowly readjusting ever since. New York City, which sits on land that was raised just outside the edge of the ice sheet, is now sinking back down.
<picturehttps://climate.nasa.gov/internal_resources/2720/Map_of_vertical_land_motion_in_NYC.jpeg Mapping vertical land motion across the New York City area, researchers found the land sinking (indicated in blue) by about (0.06) (1.6 millimeters) per year on average. They also detected modest uplift (shown in red) in Queens and Brooklyn. White dotted lines indicate county/borough borders. Credit: NASA/JPL-Caltech/Rutgers University
The scientists found that on average the metropolitan area subsided by about 0.06 inches (1.6 millimeters) per year – about the same amount that a toenail grows in a month. Using the radars on the ESA (European Space Agency) Sentinel-1 satellites, along with advanced data processing techniques, they mapped the motion in detail and pinpointed neighborhoods and landmarks – down to an airport runway and tennis stadium – that are subsiding more rapidly than the average.
“We’ve produced such a detailed map of vertical land motion in the New York City area that there are features popping out that haven’t been noticed before,” said lead author Brett Buzzanga, a postdoctoral researcher at JPL.
David Bekaert, a JPL scientist and lead investigator of the project, said that tracking local elevation changes and relative sea level can be important for flood mapping and planning purposes. This is especially critical as Earth’s changing climate pushes oceans higher around the world, leading to more frequent nuisance flood events and exacerbating destructive storm surges.
Local Changes
The team identified two notable hot spots of subsidence co-located with landfills in Queens. One, runway 13/31 at LaGuardia Airport, is subsiding at a rate of about 0.15 inches (3.7 millimeters) per year. The scientists noted that[...]
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NASA-Led Study Pinpoints Areas of New York City Sinking, Rising In Brief: Scientists using space-based radar found that land in New York City is sinking at varying rates from human and natural factors. A few spots are rising. Parts of the New York City…
the airport is undergoing an $8 billion renovation designed in part to alleviate flooding from the rising waters of the Atlantic Ocean. They also identified Arthur Ashe Stadium, which is sinking at a rate of about 0.18 inches (4.6 millimeters) per year and required construction of a lightweight roof during renovation to reduce its heaviness and amount of subsidence.
<picturehttps://climate.nasa.gov/internal_resources/2721/Data_images_of_subsidence_hotspots.jpeg The team pinpointed hot spots: left, runway 13/31 at LaGuardia Airport in Queens, is subsiding at a rate of about 0.15 inches (3.7 millimeters) per year; right, part of Newtown Creek, a Superfund site in East Williamsburg, Brooklyn, is rising unevenly by about 0.06 inches (1.6 millimeters) per year. Credit: NASA/JPL-Caltech/Rutgers University
Other subsidence hot spots include the southern portion of Governors Island – built on 38 million square feet (3.5 million cubic meters) of rocks and dirt from early 20th century subway excavations – as well as sites near the ocean in Brooklyn’s Coney Island and Arverne by the Sea in Queens that were built on artificial fill. Similar levels of subsidence were observed beneath Route 440 and Interstate 78 in suburban New Jersey, which traverse historic fill locations, and in Rikers Island, expanded to its present size by landfilling.
The scientists also found previously unidentified uplift in East Williamsburg, Brooklyn – rising by about 0.06 inches (1.6 millimeters) per year – and in Woodside, Queens, which rose 0.27 inches (6.9 millimeters) per year between 2016 and 2019 before stabilizing. Co-author Robert Kopp of Rutgers University said that groundwater pumping and injection wells used to treat polluted water may have played a role, but further investigation is needed. “I’m intrigued by the potential of using high-resolution InSAR to measure these kinds of relatively short-lived environmental modifications associated with uplift,” Kopp said.
The scientists said that cities like New York, which are investing in coastal defenses and infrastructure in the face of sea level rise, can benefit from high-resolution estimates of land motion.
The JPL-led OPERA (Observational Products for End-Users from Remote Sensing Analysis) project will detail surface displacement across North America in a future data product. To do that, it will leverage InSAR data from ESA’s Sentinel-1 and from the upcoming NISAR (NASA-Indian Space Research Organization Synthetic Aperture Radar) mission, set to launch in 2024. Information from OPERA will help scientists better monitor vertical land motion along with other changes connected to natural hazards.
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Jane J. Lee / Andrew Wang
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<picturehttps://climate.nasa.gov/internal_resources/2721/Data_images_of_subsidence_hotspots.jpeg The team pinpointed hot spots: left, runway 13/31 at LaGuardia Airport in Queens, is subsiding at a rate of about 0.15 inches (3.7 millimeters) per year; right, part of Newtown Creek, a Superfund site in East Williamsburg, Brooklyn, is rising unevenly by about 0.06 inches (1.6 millimeters) per year. Credit: NASA/JPL-Caltech/Rutgers University
Other subsidence hot spots include the southern portion of Governors Island – built on 38 million square feet (3.5 million cubic meters) of rocks and dirt from early 20th century subway excavations – as well as sites near the ocean in Brooklyn’s Coney Island and Arverne by the Sea in Queens that were built on artificial fill. Similar levels of subsidence were observed beneath Route 440 and Interstate 78 in suburban New Jersey, which traverse historic fill locations, and in Rikers Island, expanded to its present size by landfilling.
The scientists also found previously unidentified uplift in East Williamsburg, Brooklyn – rising by about 0.06 inches (1.6 millimeters) per year – and in Woodside, Queens, which rose 0.27 inches (6.9 millimeters) per year between 2016 and 2019 before stabilizing. Co-author Robert Kopp of Rutgers University said that groundwater pumping and injection wells used to treat polluted water may have played a role, but further investigation is needed. “I’m intrigued by the potential of using high-resolution InSAR to measure these kinds of relatively short-lived environmental modifications associated with uplift,” Kopp said.
The scientists said that cities like New York, which are investing in coastal defenses and infrastructure in the face of sea level rise, can benefit from high-resolution estimates of land motion.
The JPL-led OPERA (Observational Products for End-Users from Remote Sensing Analysis) project will detail surface displacement across North America in a future data product. To do that, it will leverage InSAR data from ESA’s Sentinel-1 and from the upcoming NISAR (NASA-Indian Space Research Organization Synthetic Aperture Radar) mission, set to launch in 2024. Information from OPERA will help scientists better monitor vertical land motion along with other changes connected to natural hazards.
News Media Contacts
Jane J. Lee / Andrew Wang
Jet Propulsion Laboratory, Pasadena, Calif.
818-354-0307 / 626-379-6874
jane.j.lee@jpl.nasa.gov / andrew.wang@jpl.nasa.gov
Climate Change Science on Telegram by @ClimateChangeScience
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The NEA Initiative’s newly released guidance document focuses on the integration of climate change considerations in national ecosystem assessments.
Explore how the assessments contribute to policymaking and help address climate challenges effectively👉 eu1.hubs.ly/H05qvVr0
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Explore how the assessments contribute to policymaking and help address climate challenges effectively👉 eu1.hubs.ly/H05qvVr0
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“This year’s victory is a good start on the long road to real ocean protection. After this symbolic moment, leaders must now bring the Treaty into national law at home.” —@Madsflarup
✍️ to #ProtectTheOceans greenpeace.org/international…
Learn more ⤵️ greenpeace.org/international…
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✍️ to #ProtectTheOceans greenpeace.org/international…
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Imagery of Tropical Storm #Philippe via @NOAA's #GOESEast 🛰️ shows the system to the east of the Leeward Islands. Its winds are currently sustained at 50 mph.
Latest updates: hurricanes.gov
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Latest updates: hurricanes.gov
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