Author: Robert M. Wilson
Publisher:
ISBN:
Category :
Languages : en
Pages : 47
Book Description
Statistical Aspects of the North Atlantic Basin Tropical Cyclones
Statistical Aspects of North Atlantic Basin Tropical Cyclones During the Weather Satellite Era, 1960-2013:
Author: National Aeronautics and Space Administration (NASA)
Publisher: Createspace Independent Publishing Platform
ISBN: 9781719504072
Category :
Languages : en
Pages : 80
Book Description
A tropical cyclone is described as a warm-core, nonfrontal, synoptic-scale system that originates over tropical or subtropical waters, having organized deep convection and closed surface wind circulation (counterclockwise in the Northern Hemisphere) about a well defined center. When its sustained wind speed equals 34-63 kt, it is called a tropical (or subtropical) storm and is given a name (i.e., alternating male and female names, beginning in 1979); when its sustained wind speed equals 64-95 kt, it is called a hurricane (at least in the Eastern Pacific and North Atlantic basin); and when its sustained wind speed equals 96 kt or higher, it is called an intense or major hurricane (i.e., categories 3-5 on the Saffir-Simpson Hurricane Wind Scale). Although tropical cyclones have been reported and described since the voyages of Columbus, a detailed record of their occurrences extends only from 1851 to the present, with the most reliable portion extending only from about 1945 to the present, owing to the use of near-continuous routine reconnaissance aircraft monitoring flights and the use of satellite imagery (beginning in 1960; see Davis). Even so, the record may still be incomplete, possibly missing at least one tropical cyclone per yearly hurricane season, especially prior to the use of continuous satellite monitoring. In fact, often an unnamed tropical cyclone is included in the year-end listing of events at the conclusion of the season, following post-season analysis (e.g., as happened in 2011 and 2013, each having one unnamed event). In this two-part Technical Publication (TP), statistical aspects of the North Atlantic basin tropical cyclones are examined for the interval 1960-2013, the weather satellite era. Part 1 examines some 25 parameters of tropical cyclones (e.g., frequencies, peak wind speed (PWS), accumulated cyclone energy (ACE), etc.), while part 2 examines the relationship of these parameters against specific climate-related factors. These studies are a
Publisher: Createspace Independent Publishing Platform
ISBN: 9781719504072
Category :
Languages : en
Pages : 80
Book Description
A tropical cyclone is described as a warm-core, nonfrontal, synoptic-scale system that originates over tropical or subtropical waters, having organized deep convection and closed surface wind circulation (counterclockwise in the Northern Hemisphere) about a well defined center. When its sustained wind speed equals 34-63 kt, it is called a tropical (or subtropical) storm and is given a name (i.e., alternating male and female names, beginning in 1979); when its sustained wind speed equals 64-95 kt, it is called a hurricane (at least in the Eastern Pacific and North Atlantic basin); and when its sustained wind speed equals 96 kt or higher, it is called an intense or major hurricane (i.e., categories 3-5 on the Saffir-Simpson Hurricane Wind Scale). Although tropical cyclones have been reported and described since the voyages of Columbus, a detailed record of their occurrences extends only from 1851 to the present, with the most reliable portion extending only from about 1945 to the present, owing to the use of near-continuous routine reconnaissance aircraft monitoring flights and the use of satellite imagery (beginning in 1960; see Davis). Even so, the record may still be incomplete, possibly missing at least one tropical cyclone per yearly hurricane season, especially prior to the use of continuous satellite monitoring. In fact, often an unnamed tropical cyclone is included in the year-end listing of events at the conclusion of the season, following post-season analysis (e.g., as happened in 2011 and 2013, each having one unnamed event). In this two-part Technical Publication (TP), statistical aspects of the North Atlantic basin tropical cyclones are examined for the interval 1960-2013, the weather satellite era. Part 1 examines some 25 parameters of tropical cyclones (e.g., frequencies, peak wind speed (PWS), accumulated cyclone energy (ACE), etc.), while part 2 examines the relationship of these parameters against specific climate-related factors. These studies are a
Statistical aspects of tropical cyclone activity in the North Atlantic basin, 1945-2010
Statistical aspects of North Atlantic basin tropical cyclones during the weather satellite era, 1960-2013
Statistical Forecasts of Tropical Cyclone Intensity for the North Atlantic Basin
Author: Brian R. Jarvinen
Publisher:
ISBN:
Category : Cyclone forecasting
Languages : en
Pages : 22
Book Description
Publisher:
ISBN:
Category : Cyclone forecasting
Languages : en
Pages : 22
Book Description
A Statistical Model for the Prediction of Western North Pacific Tropical Cyclone Motion (WPCLPR)
Author: Xu Yiming
Publisher:
ISBN:
Category : Cyclone forecasting
Languages : en
Pages : 38
Book Description
Publisher:
ISBN:
Category : Cyclone forecasting
Languages : en
Pages : 38
Book Description
Hurricanes of the North Atlantic
Author: James B. Elsner
Publisher: Oxford University Press
ISBN: 0199880808
Category : Science
Languages : en
Pages : 505
Book Description
Called the greatest storms on the planet, hurricanes of the North Atlantic Ocean often cause tremendous social and economic upheaval in the United States, Mexico, and the Caribbean. And with the increasing development of coastal areas, the impact of these storms will likely increase. This book provides a comprehensive analysis of North Atlantic hurricanes and what they mean to society. It is intended as an intermediary between hurricane climate research and the users of hurricane information. Topics include the climatology of tropical cyclones in general and those of the North Atlantic in particular; the major North Atlantic hurricanes, focusing on U.S. landfalling storms; the prediction models used in forecasting; and societal vulnerability to hurricanes, including ideas for modeling the relationship between climatological data and analysis in the social and economic sciences.
Publisher: Oxford University Press
ISBN: 0199880808
Category : Science
Languages : en
Pages : 505
Book Description
Called the greatest storms on the planet, hurricanes of the North Atlantic Ocean often cause tremendous social and economic upheaval in the United States, Mexico, and the Caribbean. And with the increasing development of coastal areas, the impact of these storms will likely increase. This book provides a comprehensive analysis of North Atlantic hurricanes and what they mean to society. It is intended as an intermediary between hurricane climate research and the users of hurricane information. Topics include the climatology of tropical cyclones in general and those of the North Atlantic in particular; the major North Atlantic hurricanes, focusing on U.S. landfalling storms; the prediction models used in forecasting; and societal vulnerability to hurricanes, including ideas for modeling the relationship between climatological data and analysis in the social and economic sciences.
Hurricanes and Climate Change
Author: James B. Elsner
Publisher: Springer Science & Business Media
ISBN: 0387094105
Category : Science
Languages : en
Pages : 425
Book Description
Recent studies suggest that tropical cyclones are more powerful than in the past with the most dramatic increase in the North Atlantic. The increase is correlated with an increase in ocean temperature. A debate concerns the nature of these increases with some scientists attributing them to a natural climate fluctuation and others suggesting climate change related to anthropogenic increases in forcing from greenhouse gases. A Summit on Hurricanes and Climate Change was held during the spring of 2007 on the island of Crete that brought together leading academics and researchers on both sides of the scientific debate to discuss new research and express opinions about what will happen in the future with regard to hurricane activity. This proceedings volume highlights the state-of-the-science research into various aspects of the hurricane-climate connection. It is likely that the science presented here will lead to new research that will help answer crucial questions about our sustainable future.
Publisher: Springer Science & Business Media
ISBN: 0387094105
Category : Science
Languages : en
Pages : 425
Book Description
Recent studies suggest that tropical cyclones are more powerful than in the past with the most dramatic increase in the North Atlantic. The increase is correlated with an increase in ocean temperature. A debate concerns the nature of these increases with some scientists attributing them to a natural climate fluctuation and others suggesting climate change related to anthropogenic increases in forcing from greenhouse gases. A Summit on Hurricanes and Climate Change was held during the spring of 2007 on the island of Crete that brought together leading academics and researchers on both sides of the scientific debate to discuss new research and express opinions about what will happen in the future with regard to hurricane activity. This proceedings volume highlights the state-of-the-science research into various aspects of the hurricane-climate connection. It is likely that the science presented here will lead to new research that will help answer crucial questions about our sustainable future.
Hurricanes and Climate Change
Author: Jennifer M. Collins
Publisher: Springer
ISBN: 3319475940
Category : Science
Languages : en
Pages : 262
Book Description
This book provides research that shows tropical cyclones are more powerful than in the past with the most dramatic increases occurring over the North Atlantic and with the strongest hurricanes. Although such increases are correlated with warming oceans and are consistent with the thermodynamic theory of hurricane intensity, there remains doubt about the interpretation, integrity, and meaning of these results. Arising from the 5th International Summit on Hurricanes and Climate Change, this book contains new research on topics related to hurricanes and climate change. Bringing together international leading academics and researchers on various sides of the debate, the book discusses new research and expresses opinions about what is happening and what might happen in the future with regard to regional and global hurricane (tropical cyclone) activity.
Publisher: Springer
ISBN: 3319475940
Category : Science
Languages : en
Pages : 262
Book Description
This book provides research that shows tropical cyclones are more powerful than in the past with the most dramatic increases occurring over the North Atlantic and with the strongest hurricanes. Although such increases are correlated with warming oceans and are consistent with the thermodynamic theory of hurricane intensity, there remains doubt about the interpretation, integrity, and meaning of these results. Arising from the 5th International Summit on Hurricanes and Climate Change, this book contains new research on topics related to hurricanes and climate change. Bringing together international leading academics and researchers on various sides of the debate, the book discusses new research and expresses opinions about what is happening and what might happen in the future with regard to regional and global hurricane (tropical cyclone) activity.
Uncertainties and Limitations in Simulating Tropical Cyclones
Author: Asuka Suzuki-Parker
Publisher: Springer Science & Business Media
ISBN: 3642250289
Category : Science
Languages : en
Pages : 89
Book Description
The thesis work was in two major parts: development and testing of a new approach to detecting and tracking tropical cyclones in climate models; and application of an extreme value statistical approach to enable assessment of changes in weather extremes from climate models. The tracking algorithm applied a creative phase-space approach to differentiate between modeled tropical cyclones and their mid-latitude cousins. A feature here was the careful attention to sensitivity to choice of selection parameters, which is considerable. The major finding was that the changes over time were relatively insensitive to these details. This new approach will improve and add confidence to future assessments of climate impacts on hurricanes. The extremes approach utilized the Generalized Pareto Distribution (one of the standard approaches to statistics of extremes) applied to present and future hurricane distributions as modeled by a regional climate model, then applied the changes to current observations to extract the changes in the extremes. Since climate models cannot resolve these extremes directly, this provides an excellent method of determining weather extremes in general. This is of considerable societal importance as we are most vulnerable to such extremes and knowledge of their changes enables improved planning and adaptation strategies.
Publisher: Springer Science & Business Media
ISBN: 3642250289
Category : Science
Languages : en
Pages : 89
Book Description
The thesis work was in two major parts: development and testing of a new approach to detecting and tracking tropical cyclones in climate models; and application of an extreme value statistical approach to enable assessment of changes in weather extremes from climate models. The tracking algorithm applied a creative phase-space approach to differentiate between modeled tropical cyclones and their mid-latitude cousins. A feature here was the careful attention to sensitivity to choice of selection parameters, which is considerable. The major finding was that the changes over time were relatively insensitive to these details. This new approach will improve and add confidence to future assessments of climate impacts on hurricanes. The extremes approach utilized the Generalized Pareto Distribution (one of the standard approaches to statistics of extremes) applied to present and future hurricane distributions as modeled by a regional climate model, then applied the changes to current observations to extract the changes in the extremes. Since climate models cannot resolve these extremes directly, this provides an excellent method of determining weather extremes in general. This is of considerable societal importance as we are most vulnerable to such extremes and knowledge of their changes enables improved planning and adaptation strategies.