Sentences with phrase «across global oceans»
The analysis assumes that the climate - driven human contribution to sea level rise is spread evenly across global oceans, discounting localized effects.
http://wxshift.com/
The typical duration of MHWs varied considerably across the global ocean (Fig. 1g).
Averaged across the global ocean, mean MHW durations have become significantly longer by 1.3 days per decade (p < 0.01) since 1982.
The third method, Argo floats, is a network of more than 3,700 robot buoys across the global ocean.
But if West Antarctica were to lose a substantial part of its ice, then the gravitational pull would relax, and sea level would actually decrease near the ice sheet even as it spreads and increases across the global ocean.
Not exact matches
Thanks to a cooperative of family farmers, primarily from Canada and the U.S., Ocean Spray's cranberries reach consumers in over 100 countries across the world — including China, through a Tmall Global storefront.
Horizons Ventures Jason Wong said, «Ship activity across the oceans fuels the global economy but is one of the last analog arenas.
Imagine that bordeaux is a majestic iceberg drifting across the ocean of wine representing the global marketplace.
By looking at the chemistry of rocks deposited during that time period, specifically coupled carbon and sulfur isotope data, a research team led by University of California, Riverside biogeochemists reports that oxygen - free and hydrogen sulfide - rich waters extended across roughly five percent of the global ocean during this major climatic perturbation — far more than the modern ocean's 0.1 percent but much less than previous estimates for this event.
The model was developed recently by the US government's National Oceanographic and Atmospheric Administration (NOAA) to make use of new sea and wind data collected from instruments moored across the Pacific as part of the international Tropical Ocean / Global Atmosphere (TOGA) research programme.
By next year, the Argo project will have installed 3,000 floating sensors across all the oceans, offering a daily snapshot of global patterns of water temperature and salinity — crucial for predicting the nature and pace of climate change.
The research, published yesterday in the journal Proceedings of the National Academy of Sciences, is the first study to find the signal of climate change in global precipitation shifts across land and ocean.
Scientists at the School of Ocean Sciences, Bangor University have completed a comprehensive review of the literature on the mechanisms of potential coral resistance and recovery across scales from global reef areas to the microbial level within individual corals.
To figure out how much refuse is floating in those garbage patches, four ships of the Malaspina expedition, a global research project studying the oceans, fished for plastic across all five major ocean gyres in 2010 and 2011.
Those three papers explore the global ocean microbiome and plankton interaction networks, as well as how plankton communities change across a key ocean circulation choke point off South Africa.
June — August 2014, at 0.71 °C (1.28 °F) higher than the 20th century average, was the warmest such period across global land and ocean surfaces since record keeping began in 1880, edging out the previous record set in 1998.
June 2013 tied with 2006 as the fifth warmest June across global land and ocean surfaces, at 0.64 °C (1.15 °F) above the 20th century average of 15.5 °C (59.9 °F).
With records dating back to 1880, the global temperature across the world's land and ocean surfaces for August 2014 was 0.75 °C (1.35 °F) higher than the 20th century average of 15.6 °C (60.1 °F).
With ENSO - neutral conditions present during the first half of 2013, the January — June global temperature across land and ocean surfaces tied with 2003 as the seventh warmest such period, at 0.59 °C (1.06 °F) above the 20th century average.
Mean MHW duration between the 1982 — 1998 and 2000 — 2016 periods increased across 84 % of the global ocean, with significant increases of up to 20 days in the mid - and high - latitude regions of all ocean basis, up to 30 + days in the central tropical Pacific Ocean and northeastern Pacific Ocean, and decreases in the eastern tropical Pacific Ocean and the high latitudes of the Southern Ocean (Fig.ocean, with significant increases of up to 20 days in the mid - and high - latitude regions of all ocean basis, up to 30 + days in the central tropical Pacific Ocean and northeastern Pacific Ocean, and decreases in the eastern tropical Pacific Ocean and the high latitudes of the Southern Ocean (Fig.ocean basis, up to 30 + days in the central tropical Pacific Ocean and northeastern Pacific Ocean, and decreases in the eastern tropical Pacific Ocean and the high latitudes of the Southern Ocean (Fig.Ocean and northeastern Pacific Ocean, and decreases in the eastern tropical Pacific Ocean and the high latitudes of the Southern Ocean (Fig.Ocean, and decreases in the eastern tropical Pacific Ocean and the high latitudes of the Southern Ocean (Fig.Ocean and the high latitudes of the Southern Ocean (Fig.Ocean (Fig. 1h).
With the contribution of such record warmth at year's end and with 10 months of the year record warm for their respective months, including the last 8 (January was second warmest for January and April was third warmest), the average global temperature across land and ocean surface areas for 2015 was 0.90 °C (1.62 °F) above the 20th century average of 13.9 °C (57.0 °F), beating the previous record warmth of 2014 by 0.16 °C (0.29 °F).
Meeting this need will require enhanced international co-operation across disciplines as enshrined by the Global Ocean Observing System, and the associated, nascent Deep Ocean Observing Strategy.
At right is a global map of cumulative human impact across 20 ocean ecosystem types.
The year - to - date temperature across global land and ocean surfaces was 1.89 °F above the 20th century average of 56.3 °F.
The June — August average temperature across global land and ocean surfaces was 1.60 °F above the 20th century average of 60.1 °F.
The August temperature across global land and ocean surfaces was 1.66 °F above the 20th century average of 60.1 °F.
The April temperature across global land and ocean surfaces was 1.98 °F above the 20th century average of 56.7 °F.
The July temperature across global land and ocean surfaces was 1.57 °F above the 20th century average of 60.4 °F.
She is also a Nereus fellow, which means she is part of the collaborative Nereus program between six leading marine science institutes with the aim of undertaking research that advances our comprehensive understandings of the global ocean systems across the natural and social sciences, from oceanography and marine ecology to fisheries economics and impacts on coastal communities.
The May temperature across global land and ocean surfaces was 1.57 °F above the 20th century average of 58.6 °F.
Human - induced changes to carbon fluxes across the land - ocean interface can influence the global carbon cycle, yet the impacts of rapid urbanization and establishment of wastewater treatment plants (WWTPs) on coastal ocean carbon cycles are poorly known.
The researchers created the Lagrangian In - situ Global High - performance particle Tracking (LIGHT) analysis module within the Model for Prediction Across Scales Ocean for rapid calculations.
The October temperature across global land and ocean surfaces was 1.31 °F above the 20th century average of 57.1 °F.
The September — November temperature across global land and ocean surfaces was 1.39 °F above the 20th century average of 57.1 °F.
The November temperature across global land and ocean surfaces was 1.31 °F above the 20th century average of 55.2 °F.
The September temperature across global land and ocean surfaces was 1.60 °F above the 20th century average of 59.0 °F.
Global warming causes ocean temperatures to rise, resulting in an increased loss of oxygen, which can then affect the nitrogen budget across the globe.
When Sea Levels Attack Few people ever realize how much global warming will impact people across the globe, especially those living along the coast or on the islands scattered throughout the oceans.
Few people ever realize how much global warming will impact people across the globe, especially those living along the coast or on the islands scattered throughout the oceans.
The historical retellings alongside contemporary experience across the Indian Ocean world is opening up exciting new global perspectives and inter-connections, placing the region centrally to multiple discourses today.
Not long now before all these dynamics in the climate system being driven by global warming from GHGs will line up almost all at once like dominoes (from the Arctic to the antarctic and across all continents and oceans).
Why it is expected that this miniscule heat speculated as being distributed across the entire ocean volume, would suddenly give up it's heat, thereby reappearing in the global surface record.
The coming SDG (Sustainable Development Goals) framework includes a proposed set of four goals (oceans, climate, biodiversity and freshwater), which is a de-facto example of applying planetary boundary thinking to create a global framework for safeguarding a stable environment on the planet for societies and communities across the world.
Albedo from medium / low level clouds warms or cools the ocean surface by increasing or decreasing over time across the global surface.
The HadCRUT4 dataset, compiled from many thousands of temperature measurements taken across the globe, from all continents and all oceans, is used to estimate global temperature, shows that 2017 was 0.99 ± 0.1 °C above pre-industrial levels, taken as the average over the period 1850 - 1900, and 0.38 ± 0.1 °C above the 1981 - 2010 average.
The results for change scaled by global mean warming are rather similar across the four scenarios, an exception being a relatively large increase over the equatorial ocean for the commitment case.
The temperature that climate scientists typically reference and care about with regard to climate change is «the average global temperature across land and ocean surface areas».
Naud, C.M., D.J. Posselt, and S.C. van den Heever, 2015: A CloudSat - CALIPSO view of cloud and precipitation properties across cold fronts over the global oceans.
Global shipping firms are not only taking advantage of melting ice in the Arctic Ocean â $» they're actually helping to drive the meltdown that continues to unlock sea routes across the top of the world.
«Estimating changes in global temperature since the pre-industrial period» «A reassessment of temperature variations and trends from global reanalyses and monthly surface climatological datasets» «Deducing Multidecadal Anthropogenic Global Warming Trends Using Multiple Regression Analysis» «Early onset of industrial - era warming across the oceans and continents&global temperature since the pre-industrial period» «A reassessment of temperature variations and trends from global reanalyses and monthly surface climatological datasets» «Deducing Multidecadal Anthropogenic Global Warming Trends Using Multiple Regression Analysis» «Early onset of industrial - era warming across the oceans and continents&global reanalyses and monthly surface climatological datasets» «Deducing Multidecadal Anthropogenic Global Warming Trends Using Multiple Regression Analysis» «Early onset of industrial - era warming across the oceans and continents&Global Warming Trends Using Multiple Regression Analysis» «Early onset of industrial - era warming across the oceans and continents»