Showing 1 to 11 of 11 results
Titan's Methane Clouds Confirmed: Evidence of Active Weather Cycle
New observations from the James Webb Space Telescope and Keck II telescope reveal evidence of cloud convection in Titan's northern hemisphere, confirming a methane rain cycle that replenishes the moon's methane lakes and seas; this adds to previous data gathered by NASA's Cassini mission and Huygens...
Titan's Methane Clouds Confirmed: Evidence of Active Weather Cycle
New observations from the James Webb Space Telescope and Keck II telescope reveal evidence of cloud convection in Titan's northern hemisphere, confirming a methane rain cycle that replenishes the moon's methane lakes and seas; this adds to previous data gathered by NASA's Cassini mission and Huygens...
Progress
32% Bias Score
\"Record Heat of 2023 Linked to Decreased Cloud Cover\"
\"2023 marked the warmest year on record due to decreased low-level clouds over oceans, reducing Earth's albedo and increasing heat absorption, as revealed by a new study in Science.\"
\"Record Heat of 2023 Linked to Decreased Cloud Cover\"
\"2023 marked the warmest year on record due to decreased low-level clouds over oceans, reducing Earth's albedo and increasing heat absorption, as revealed by a new study in Science.\"
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28% Bias Score
Ocean Cloud Cover Decline Amplified 2023's Record Heat
A new study reveals that record low levels of low-lying clouds over oceans significantly amplified 2023's record heat, contributing to a decreased planetary albedo and increased sunlight absorption, raising concerns about future warming projections.
Ocean Cloud Cover Decline Amplified 2023's Record Heat
A new study reveals that record low levels of low-lying clouds over oceans significantly amplified 2023's record heat, contributing to a decreased planetary albedo and increased sunlight absorption, raising concerns about future warming projections.
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36% Bias Score
Low-Lying Clouds Identified as Key Factor in Record-Breaking Temperatures
Last year was the warmest year on record, partly due to the greenhouse effect and El Niño, but scientists have identified a lack of low-lying clouds above the oceans as a significant contributing factor, amplifying warming by increasing solar absorption and reducing reflection.
Low-Lying Clouds Identified as Key Factor in Record-Breaking Temperatures
Last year was the warmest year on record, partly due to the greenhouse effect and El Niño, but scientists have identified a lack of low-lying clouds above the oceans as a significant contributing factor, amplifying warming by increasing solar absorption and reducing reflection.
Progress
20% Bias Score
Reduced Low-Lying Clouds Exacerbated 2023 Record Temperatures
A new study in Science attributes the unexpectedly rapid global warming in 2023 to a reduction in low-lying clouds over oceans, reducing the Earth's albedo, increasing solar absorption, and leading to higher temperatures and increased precipitation; the study's authors warn that a self-reinforcing f...
Reduced Low-Lying Clouds Exacerbated 2023 Record Temperatures
A new study in Science attributes the unexpectedly rapid global warming in 2023 to a reduction in low-lying clouds over oceans, reducing the Earth's albedo, increasing solar absorption, and leading to higher temperatures and increased precipitation; the study's authors warn that a self-reinforcing f...
Progress
32% Bias Score
Record-Low Planetary Albedo Contributed to Unprecedented 2023-2024 Global Warming
A new study reveals that a record-low planetary albedo in 2023, primarily due to a decrease in low-level clouds, contributed significantly to the exceptionally warm temperatures of 2023 and 2024, exceeding many climate model predictions and potentially indicating a higher climate sensitivity than pr...
Record-Low Planetary Albedo Contributed to Unprecedented 2023-2024 Global Warming
A new study reveals that a record-low planetary albedo in 2023, primarily due to a decrease in low-level clouds, contributed significantly to the exceptionally warm temperatures of 2023 and 2024, exceeding many climate model predictions and potentially indicating a higher climate sensitivity than pr...
Progress
24% Bias Score
Curiosity Rover Captures Images of Colorful Martian Clouds
NASA's Curiosity rover captured images of colorful clouds, composed of frozen carbon dioxide, at altitudes of 37 to 50 miles above the Martian surface on January 17, 2024; these "mother-of-pearl" clouds are formed due to Martian gravity waves cooling the atmosphere, a phenomenon predictable enough f...
Curiosity Rover Captures Images of Colorful Martian Clouds
NASA's Curiosity rover captured images of colorful clouds, composed of frozen carbon dioxide, at altitudes of 37 to 50 miles above the Martian surface on January 17, 2024; these "mother-of-pearl" clouds are formed due to Martian gravity waves cooling the atmosphere, a phenomenon predictable enough f...
Progress
16% Bias Score
"Düşük Seviyeli Bulutlardaki Azalma, 2023'ün Rekor Sıcaklıklarını Açıklıyor"
"Alman bilim insanları, 2023'ün rekor sıcaklıklarının, Dünya'nın güneş ışığını yansıtma kapasitesindeki azalmadan, özellikle de düşük seviyeli bulutlardaki düşüşten kaynaklandığını buldular; bu durum, küresel ısınma üzerinde kalıcı bir etkiye sahip olabilir."
"Düşük Seviyeli Bulutlardaki Azalma, 2023'ün Rekor Sıcaklıklarını Açıklıyor"
"Alman bilim insanları, 2023'ün rekor sıcaklıklarının, Dünya'nın güneş ışığını yansıtma kapasitesindeki azalmadan, özellikle de düşük seviyeli bulutlardaki düşüşten kaynaklandığını buldular; bu durum, küresel ısınma üzerinde kalıcı bir etkiye sahip olabilir."
Progress
32% Bias Score
"Record Low Planetary Albedo in 2023 Contributed to 0.2°C Additional Warming"
"A record low in planetary albedo in 2023, caused by a decrease in low-level clouds primarily in northern mid-latitudes, the tropics, and the Atlantic, contributed to 0.2°C of additional warming beyond greenhouse gas and El Niño effects; researchers suggest a potential feedback loop between warming ...
"Record Low Planetary Albedo in 2023 Contributed to 0.2°C Additional Warming"
"A record low in planetary albedo in 2023, caused by a decrease in low-level clouds primarily in northern mid-latitudes, the tropics, and the Atlantic, contributed to 0.2°C of additional warming beyond greenhouse gas and El Niño effects; researchers suggest a potential feedback loop between warming ...
Progress
36% Bias Score
Ocean Cloud Decrease Amplified 2023's Record-Breaking Temperatures
A new study in Science attributes the unexpectedly high temperatures of last year partly to a decrease in low-level ocean clouds, which reduced the planet's albedo and amplified warming, potentially creating a dangerous feedback loop.
Ocean Cloud Decrease Amplified 2023's Record-Breaking Temperatures
A new study in Science attributes the unexpectedly high temperatures of last year partly to a decrease in low-level ocean clouds, which reduced the planet's albedo and amplified warming, potentially creating a dangerous feedback loop.
Progress
36% Bias Score
2024 Global Temperature Exceeds 1.5-Degree Limit, Accelerated Warming Linked to Albedo Reduction
Despite La Niña's cooling effect, 2024's global temperature reached approximately 1.6 degrees Celsius above pre-industrial levels, exceeding the Paris Agreement's 1.5-degree limit due to factors including a reduction in planetary albedo from decreased low-hanging clouds, potentially linked to air po...
2024 Global Temperature Exceeds 1.5-Degree Limit, Accelerated Warming Linked to Albedo Reduction
Despite La Niña's cooling effect, 2024's global temperature reached approximately 1.6 degrees Celsius above pre-industrial levels, exceeding the Paris Agreement's 1.5-degree limit due to factors including a reduction in planetary albedo from decreased low-hanging clouds, potentially linked to air po...
Progress
36% Bias Score
Showing 1 to 11 of 11 results