DOCSLIB.ORG

The ITCZ in the Central and Eastern Pacific on Synoptic Time Scales

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
The ITCZ in the Central and Eastern Pacific on Synoptic Time Scales MAY 2006 WANG AND MAGNUSDOTTIR 1405 The ITCZ in the Central and Eastern Pacific on Synoptic Time Scales CHIA-CHI WANG AND GUDRUN MAGNUSDOTTIR Department of Earth System Science, University of California, Irvine, Irvine, California (Manuscript received 23 June 2005, in final form 15 September 2005) ABSTRACT The ITCZ in the central and eastern Pacific on synoptic time scales is highly dynamic. The active season extends roughly from May through October. During the active season, the ITCZ continuously breaks down and re-forms, and produces a series of tropical disturbances. The life span of the ITCZ varies from several days to 3 weeks. Sixty-five cases of ITCZ breakdown have been visually identified over five active seasons (1999–2003) in three independent datasets. ITCZ breakdown can be triggered by two mechanisms: 1) interaction with westward-propagating disturbances (WPDs) and 2) the vortex rollup (VR) mechanism. Results show that the frequency of occurrence of ITCZ breakdown from these two mechanisms is the same. The VR mecha- nism may have been neglected because the produced disturbances are rather weak and they may dissipate quickly. The ITCZ shows a strong tendency to re-form within 1–2 days in the same location. The ITCZ may break down via the VR mechanism without any other support, and thus it may continuously generate numerous tropical disturbances throughout the season. There are two main differences between the two mechanisms: 1) The WPDs-induced ITCZ breakdown tends to create one or two vortices that may be of tropical depression strength. The VR-induced ITCZ breakdown generates several nearly equal-sized weak disturbances. 2) The WPDs tend to disturb the ITCZ in the eastern Pacific only. Disturbances generally move along the Mexican coast after shedding off from the ITCZ and do not further disturb the ITCZ in the central Pacific. Therefore, the VR mechanism is observed more clearly and is the dominating mechanism for ITCZ breakdown in the central Pacific. 1. Introduction the ocean, while in the eastern Pacific, the ITCZ is narrow and long, generally being located at the south- On seasonal time scales, the intertropical conver- ern boundary of the eastern Pacific warm pool, north of gence zone (ITCZ) is thought to be a feature nearly in the strongest meridional gradient of sea surface tempera- steady state. It is the place where the northeasterly and ture (Raymond et al. 2003; Yin and Albrecht 2000). southeasterly trade winds converge. Air rises in deep The picture of the ITCZ is quite different on synoptic convection, moves poleward in the upper troposphere, time scales (order of 10 days) from the seasonal time and sinks in the subtropics where the subtropical highs scale (order of 100 days). From day to day, the ITCZ is are located. The air then flows back to lower latitudes highly dynamic and changeable as seen in visible and in the lower troposphere and converges into the ITCZ infrared geostationary satellite images [Geostationary to complete the circulation. This closed circulation is Operational Environmental Satellite (GOES)] that called the “Hadley cell,” and the ITCZ is its rising measure cloud reflectivity and cloud-top temperature, branch. In the western Pacific, the location of the ITCZ respectively (Fig. 1). It may be quite narrow (2° lati- migrates seasonally with the sun. However, in the east- tude) and stretched over 70° in longitude for a few days, ern Pacific, the ITCZ tends to stay in the Northern developing undulations whose amplitude may increase Hemisphere (NH) year-round. The shape of the ITCZ over the next few days until the entire ITCZ breaks varies with longitude. In the western Pacific, the ITCZ down into smaller disturbances, some of which may is broader in latitude mainly due to the warm pool in strengthen with time as they move away, while others dissipate. The ITCZ may then re-form in the original location, the entire life cycle taking on the order of 10 Corresponding author address: Chia-chi Wang, Department of Earth System Science, University of California, Irvine, Irvine, CA days. The fields of precipitation and low-level conver- 92697-3100. gence are both too noisy to characterize the instanta- E-mail: [email protected] neous ITCZ, even though both fields are used to de- © 2006 American Meteorological Society Unauthenticated | Downloaded 10/03/21 01:29 PM UTC MWR3130 1406 MONTHLY WEATHER REVIEW VOLUME 134 scribe the monthly or seasonal mean ITCZ. We find and Magnusdottir (2005) simulated the mechanism for that low-level vorticity describes the ITCZ well in in- both shallow and deep ITCZ breakdown in a fully stantaneous data. It shows up as a narrow strip of posi- three-dimensional dynamical model and examined the tive vorticity near the surface [in Quick Scatterometer effect of various background flows. The VR mechanism (QuikSCAT) data] or at 975 hPa [in National Centers is suggested to be an efficient mechanism to pool vor- for Environmental Prediction (NCEP) data]. ticity in the tropical atmosphere, which represents the Deep and shallow ITCZs are considered in our in- early stage of cyclogenesis. vestigation. Shallow convection or shallow Hadley cell An easterly wave in the tropical east Pacific may be has been observed in several independent datasets traced as far back as the Atlantic basin using 700-hPa (e.g., Zhang et al. 2004). Its rising branch is in the ITCZ meridional wind perturbations (or surface pressure) as for the conventional Hadley cell, but its divergent and can be distinguished from the locally generated outflow lies just above the top of the planetary bound- disturbances. However, both types are considered dis- ary layer. The strength and depth of a shallow ITCZ turbances external to the ITCZ in the central and east- changes seasonally. It is strongest and deepest in fall/ ern Pacific. In a series of modeling studies by Schubert winter at about 3-km height, and shallowest in spring at and collaborators (Hack et al. 1989; Schubert et al. about 1-km height. Murakami et al. (1992) and Zhang 1991; Guinn and Schubert 1993; Nieto Ferreira and et al. (2004) suggest that the shallow convection is most Schubert 1997) and in Wang and Magnusdottir (2005), robust when deep convection is absent. In GOES sat- the term “ITCZ breakdown” was used for the events ellite images, the shallow ITCZ is detected in visible specifically triggered by the VR mechanism. In this pa- images but not in the infrared ones, whereas the deep per, we name the mechanism “the vortex rollup mecha- ITCZ shows up both in visible and infrared satellite nism” to avoid confusion. images. ITCZ breakdown has been largely ignored due to the An example of ITCZ breakdown from September difficulty in identifying the event in conventional mea- 2000 is shown in Fig. 1, which shows visible and infrared surements, especially in the tropical central to eastern GOES images from the tropical Pacific. On 19 Septem- Pacific where observations are sparse. This gives the ber ITCZ convection was shallow, with an easterly impression that the observed ITCZ breakdown event wave appearing on the right edge of the image, which (late July to early August 1988, in the central to eastern did not disturb the ITCZ but just moved northwestward Pacific) shown in Hack et al. (1989), Schubert et al. along the coast. The ITCZ intensified into a deep ITCZ (1991), and Nieto Ferreira and Schubert (1997) was an 2 days later (21 September) and started undulating isolated event, which it was not. The difficulty is mainly from its western end. The ITCZ broke into three pieces associated with horizontal resolution of observational on 23 September (due to the vortex rollup mechanism products. The horizontal resolution of conventional re- that will be described in the following paragraph). The analysis data (2.5° ϫ 2.5°) is not fine enough to depict produced disturbances were rather weak and not well ITCZ breakdown events. We have analyzed NCEP re- organized. They moved toward high latitudes and dis- analysis data (2.5° ϫ 2.5°) and did not locate any ITCZ sipated. On 29 September, an ITCZ re-formed in the breakdown events. In our modeling study (Wang and same region around 10°N. Magnusdottir 2005), we found that a horizontal resolu- ITCZ breakdown events can be triggered by interac- tion of at least 1.1° ϫ 1.1° was required in a primitive tions with westward-propagating disturbances (WPDs), equation model to produce strong horizontal wind which include easterly waves that originated over the shear to allow the VR mechanism to be initiated and to Atlantic (e.g., Avila and Clark 1989, and references resolve the vorticity filaments. In addition, in data-poor therein) and tropical disturbances that may have been regions, such as the tropical central to eastern Pacific, excited by flow going over the Central American moun- reanalysis data are often polluted by model assump- tains (e.g., Zehnder and Powell 1999, and references tions. With the high-quality remote sensing datasets, therein). ITCZ breakdown may also occur due to local such as QuikSCAT winds, supplemented by older sat- instability of the heating-induced, lower-tropospheric, ellite datasets, we are able to study the process of ITCZ vorticity strip (Charney 1963; Hack et al. 1989; Schu- breakdown in the real atmosphere. Wang and Magnus- bert et al. 1991, Guinn and Schubert 1993; Nieto Fer- dottir (2005) assumed that ITCZ breakdown occurs in reira and Schubert 1997; Wang and Magnusdottir summer and fall, coincident with the hurricane season. 2005), which is called the vortex rollup (VR) mecha- Here, we examine the entire year to confirm the extent nism in this paper. Nieto Ferreira and Schubert (1997) of the active season for ITCZ breakdown.
Load more

Recommended publications
  • Climatology, Variability, and Return Periods of Tropical Cyclone Strikes in the Northeastern and Central Pacific Ab Sins Nicholas S
    Louisiana State University LSU Digital Commons LSU Master's Theses Graduate School March 2019 Climatology, Variability, and Return Periods of Tropical Cyclone Strikes in the Northeastern and Central Pacific aB sins Nicholas S. Grondin Louisiana State University, [email protected] Follow this and additional works at: https://digitalcommons.lsu.edu/gradschool_theses Part of the Climate Commons, Meteorology Commons, and the Physical and Environmental Geography Commons Recommended Citation Grondin, Nicholas S., "Climatology, Variability, and Return Periods of Tropical Cyclone Strikes in the Northeastern and Central Pacific asinB s" (2019). LSU Master's Theses. 4864. https://digitalcommons.lsu.edu/gradschool_theses/4864 This Thesis is brought to you for free and open access by the Graduate School at LSU Digital Commons. It has been accepted for inclusion in LSU Master's Theses by an authorized graduate school editor of LSU Digital Commons. For more information, please contact [email protected]. CLIMATOLOGY, VARIABILITY, AND RETURN PERIODS OF TROPICAL CYCLONE STRIKES IN THE NORTHEASTERN AND CENTRAL PACIFIC BASINS A Thesis Submitted to the Graduate Faculty of the Louisiana State University and Agricultural and Mechanical College in partial fulfillment of the requirements for the degree of Master of Science in The Department of Geography and Anthropology by Nicholas S. Grondin B.S. Meteorology, University of South Alabama, 2016 May 2019 Dedication This thesis is dedicated to my family, especially mom, Mim and Pop, for their love and encouragement every step of the way. This thesis is dedicated to my friends and fraternity brothers, especially Dillon, Sarah, Clay, and Courtney, for their friendship and support. This thesis is dedicated to all of my teachers and college professors, especially Mrs.
    [Show full text]
  • Derrick Herndon and Anthony Wimmers Cooperative Institute for Meteorological Satellite Studies University of Wisconsin- Madison
    Upgrades to the M-PERC and PERC Models to Improve Short Term Tropical Cyclone Intensity Forecasts Derrick Herndon and Anthony Wimmers Cooperative Institute for Meteorological Satellite Studies University of Wisconsin- Madison James Kossin NOAA National Centers for Environmental Information (NCEI) Center for Weather and Climate, Asheville, North Carolina 74th Interdepartmental Hurricane Conference 2020 Lakeland, FL Feb 25-26 This work is sponsored by the NOAA Joint Hurricane Testbed Radar image of Hurricane Maria approaching Puerto Rico courtesy of Brian McNoldy Univ. of Miami, Rosenstiel School) ERC Onset Guidance: M-PERC Goal – Make incremental improvements to short range forecasts by giving forecasters a tool that objectively identifies Eyewall Replacement Cycle (ERC) onset. Microwave Probability of Eyewall Replacement (M-PERC) model Existing microwave-based model M-PERC was developed using Atlantic data - Baseline existing Atl-based model - Create Eastern/Central Pacific data - Create new model based on this basin-specific data - Test model in near real-time - Update web-based display to add SHIPS environment parameters (shear, sst, etc) ERC Onset Guidance: M-PERC TC Intensification Environmental Controls Internal Controls SSTs, wind shear, moisture Eye formation, convective bands Impact long range and short eyewall replacement cycles. Primarily range forecast impact short range intensity changes “The disparity between SHIPS forecasts and the observed intensity changes during ERCs is strongly suggestive that the typical environmental controls of intensity change, on which SHIPS is largely based, are temporarily countermanded while dynamic processes internal to the storm dominate the intensity evolution.”- Kossin ERC Onset Guidance: M-PERC In 2018 alone NHC mentioned ERCs 36 times in forecast discussions.
    [Show full text]
  • Maui County Arborist Committee Meeting Minutes October 10, 2018
    Maui County Arborist Committee Meeting Minutes October 10, 2018 1. Call to order at 1:39 pm by Alex Haller, Committee Chair, when it was determined that a quorum was present. The two previous meetings, August 8, 2018 and September 12, 2018 were cancelled due to Hurricane Hector and Tropical Storm Olivia. Cancellation of meetings are posted on the County website. Arine Bulkley inquired if the committee has to wait until the following month to meet again if a cancellation occurs. David Galazin, Corporation Counsel, informed the committee that they do have authority to have special meetings outside of regularly scheduled meetings dependent upon if members are able to meet to achieve quorum and if agenda is posted on time. 2. New Committee Business – a. Approval of minutes – Request by Alex Haller to replace “rode” with “road” in sentence 9 of subcommittee item 3d. Approval of the amended minutes for the committee meeting of July 11, 2018: motion to approve by Kimberly Thayer, seconded by Arine Bulkley and unanimously approved. b. Kula Park - Jacaranda Trees – Public testimony by Barbara Fernandez. The County has not addressed the glycine vines that are covering the Jacaranda trees in Kula Park. Stated that there is a neighborhood group willing to assist with the removal of the glycine. Also brought up replacement of a previously donated Rice Park tree that was removed about 2 years ago. Barbara stated that the family that donated the original tree would be open to donating another one. If committee wants to pursue that, she could contact the family. Alex asked for clarification of the location of the trees affected by the glycine.
    [Show full text]
  • Regional Association IV (North and Central America and the Caribbean) Hurricane Operational Plan
    W O R L D M E T E O R O L O G I C A L O R G A N I Z A T I O N T E C H N I C A L D O C U M E N T WMO-TD No. 494 TROPICAL CYCLONE PROGRAMME Report No. TCP-30 Regional Association IV (North and Central America and the Caribbean) Hurricane Operational Plan 2001 Edition SECRETARIAT OF THE WORLD METEOROLOGICAL ORGANIZATION - GENEVA SWITZERLAND ©World Meteorological Organization 2001 N O T E The designations employed and the presentation of material in this document do not imply the expression of any opinion whatsoever on the part of the Secretariat of the World Meteorological Organization concerning the legal status of any country, territory, city or area or of its authorities, or concerning the delimitation of its frontiers or boundaries. (iv) C O N T E N T S Page Introduction ...............................................................................................................................vii Resolution 14 (IX-RA IV) - RA IV Hurricane Operational Plan .................................................viii CHAPTER 1 - GENERAL 1.1 Introduction .....................................................................................................1-1 1.2 Terminology used in RA IV ..............................................................................1-1 1.2.1 Standard terminology in RA IV .........................................................................1-1 1.2.2 Meaning of other terms used .............................................................................1-3 1.2.3 Equivalent terms ...............................................................................................1-4
    [Show full text]
  • Year in Review
    Volume 4, No. 1 403rd Wing, Keesler AFB, Miss. Jan. 11, 2019 Year in Review Photo by Senior Airman Xavier Navarro Deployments, hurricanes, and training exercises were just a few events that kept the Reserve Citizen Airmen of the 403rd Wing, Keesler Air Force Base, Miss., busy in 2018. This year in review highlights some of the wing’s accomplishments. By Lt. Col. Marnee A.C. Losurdo lift Squadron, maintainers from the 803rd Aircraft Maintenance 403rd Wing Public Affairs Squadron and support personnel from the 403rd Wing provided airlift, airdrop and aeromedical evacuation support to operations Deployments, hurricanes, and training exercises were just a few throughout the U.S. Central Command Area of Responsibility. events that kept the Reserve Citizen Airmen of the 403rd Wing busy in 2018. Another active hurricane season “Wing members have worked hard all year and have accom- Another active storm season kept 53rd Weather Reconnaissance plished so much,” said Col. Jennie R. Johnson, 403rd Wing com- Squadron crews busy. The Hurricane Hunters flew more than 655 mander. “Whatever the task, the professionalism of this unit never hours and 83 missions into 12 named storms over the Atlantic ceases to impress.” and Pacific oceans. The unit flew Alberto, Beryl, Chris, Gordon, Here are some of the wing’s top stories that showcased the excel- Kirk and the season’s most destructive storms, Hurricanes Flor- lence, achievements and readiness of the wing in supporting the ence and Michael, which caused significant damage to the south- Air Force Reserve mission. eastern United States. While this year’s Atlantic hurricane season wasn’t as active as 2017, the hurricane season in the eastern Pacific Wing members deploy to Southwest Asia Ocean was a record setter with 22 named storms.
    [Show full text]
  • Barnum Hall to Become Public Theater
    KEND EDIT EE ION W a Visit us online smdp.com Santa Monica Daily Press August 19-20, 2006 A newspaper with issues Volume 5, Issue 240 DAILY LOTTERY 5 12 13 46 50 What a shrimp Meganumber: 10 Barnum Jackpot: $ 40M 6 10 26 32 37 Meganumber: 3 Jackpot: $ 43M Hall to 2 4 12 13 28 MIDDAY: 9 2 9 EVENING: 4 4 8 become 1st: 05 California Classic 2nd: 04 Big Ben 3rd: 12 Lucky Charms RACE TIME: 1.43.10 Although every effort is made to ensure the accuracy of the winning number information, mistakes can occur. In the event of any discrepancies, California State laws and California Lottery regulations will prevail. Complete game public information and prize claiming instructions are available at California Lottery retailers. Visit the California State Lottery web site at http://www.calottery.com NEWS OF THE WEIRD BY CHUCK SHEPARD theater ■ A former police official and current BY KEVIN HERRERA aggressive, respected Wellington, New Daily Press Staff Writer Zealand, litigator, Rob Moodie, 67, said in July that he is tired of the old-boy network CITY HALL — After spending of male lawyers and judges, and that henceforth he will show his disdain by more than $7.5 million to restore dressing in women’s clothes in court. The Santa Monica High School’s worse the “corruption” he senses, the Barnum Hall to its original glory, frillier will be his outfits, said the married father of three, who also said he happens school officials are considering an to like women’s clothes, but that it took additional $176,500 to make the the- the pervasive male courthouse culture to ater suitable for expanded commu- bring that into the open.
    [Show full text]
  • DLNR Summer 2018 Field Camp (8 People Deployed for 160 Days
    PAPAHĀNAUMOKUĀKEA MARINE NATIONAL MONUMENT Agency Report to the Reserve Advisory Council April 2018 – September 2018 Agency: State of Hawaii, DLNR/DOFAW Report prepared by: Matthew Saunter, Naomi Worcester Date: 11 October 2018 DLNR Summer 2018 Field Camp (8 people deployed for 160 days) Field Camp Leaders: Matthew Saunter, Naomi Worcester Personnel: Allison Beck, Brett Higgins, Kelleigh Downs, Leah Kerschner, Morgan Walter & Vladimir Omega Logistics: • The Fall 2018 Kure crew swap took place on 3 September. • The M/V Imua deployed its LCM Alewa and completed the cargo and personnel transfer in 2 runs. The Imua was underway by 1400 HST and arrived at Midway Atoll that same day just before sunset. • Word was received regarding Hurricane Olivia’s approach to the Main Hawaiian Islands while underway to Nihoa. Fortunately, the Makani Olu was able to recover the personnel that were dropped off by the Imua on the way up. • Due to the closing of Honolulu Harbor the Imua was assigned to a pier at Ford Island on 10 September. • After Olivia had passed the boat was offloaded on 14 September. Wildlife Management: Laysan Duck translocation population management 532.15 hours were spent monitoring Laysan ducks and maintaining quality habitat. • Habitat maintenance at the seeps and guzzlers continues. This includes weeding, sediment removal, providing shade, cleaning and replenishing water sources as necessary. • Several mini duck ponds were placed in strategic locations to provide water and promote foraging range of broods during dry conditions this summer. • Water source checks were conducted 3 times per week minimally. During these checks, duck sightings were recorded and used to obtain a minimum population estimate.
    [Show full text]
  • Hurricane Lane Soaks Hawaii's Big Island with Foot of Rain 23 August 2018, by Jennifer Sinco Kelleher
    Hurricane Lane soaks Hawaii's Big Island with foot of rain 23 August 2018, by Jennifer Sinco Kelleher The center of the Category 4 storm was predicted to move close to or over portions of the main islands later Thursday or Friday, bringing dangerous surf of 20 feet and a storm surge of up to 4 feet, forecasters said. Tropical storm conditions, with winds of 73 mph (118 kph), were expected to reach the Big Island, Hawaii's easternmost major island, later Thursday, with hurricane conditions possible later in the day. As of 8 a.m., the hurricane was 290 miles (466 kilometers) south of Honolulu and moving northwest at 7 mph. Maximum winds had Jay Kitashima lashes down the roof of his tiny home in weakened slightly to 130 mph, the National preparation for Hurricane Lane, Wednesday, Aug. 22, Weather Service said. 2018, along Ewa Beach in Honolulu. As emergency shelters opened, rain began to pour and cellphone alerts went out, the approaching hurricane started to feel real for Hawaii residents.(AP Photo/John Locher) Hurricane Lane soaked Hawaii's Big Island on Thursday, dumping 12 inches of rain in as many hours as residents stocked up on supplies and tried to protect their homes ahead of the state's first hurricane since 1992. The National Weather Service warned that some areas could see up to 30 inches (76 centimeters) before the system passes. Bands of rain extended 350 miles (566 kilometers) from the hurricane's People, who declined to be named, fill up sand bags that center. will be used to help protect their home in preparation for Hurricane Lane, Wednesday, Aug.
    [Show full text]
  • Hawaiian Hoary Bat Behavior at Wind Turbines on Maui
    Technical Report HCSU-093 HAWAIIAN HOARY BAT (LASIURUS CINEREUS SEMOTUS) BEHAVIOR AT WIND TURBINES ON MAUI P. Marcos Gorresen¹, Paul M. Cryan², and Grace Tredinnick¹ 1 Hawai‘i Cooperative Studies Unit, University of Hawai‘i at Hilo, P.O. Box 44, Hawai‘i National Park, HI 96718 2 U.S. Geological Survey, Fort Collins Science Center, 2150 Centre Avenue, Bldg. C, Fort Collins, CO 80526 Hawai‘i Cooperative Studies Unit University of Hawai‘i at Hilo 200 W. Kawili St. Hilo, HI 96720 (808) 933-0706 May 2020 This product was prepared under Cooperative Agreement CAG15AC00203 for the Pacific Island Ecosystems Research Center of the U.S. Geological Survey. This article has been peer reviewed and approved for publication consistent with USGS Fundamental Science Practices (http://pubs.usgs.gov/circ/1367/). Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government. ii TABLE OF CONTENTS List of Tables ....................................................................................................................... iii List of Figures ...................................................................................................................... iv Abstract ............................................................................................................................... 1 Introduction ......................................................................................................................... 2 Methods .............................................................................................................................
    [Show full text]
  • Quantification and Exploration of Diurnal Oscillations in Tropical
    JUNE 2019 K N A F F E T A L . 2105 Quantification and Exploration of Diurnal Oscillations in Tropical Cyclones JOHN A. KNAFF NOAA/Center for Satellite Applications and Research, Fort Collins, Colorado CHRISTOPHER J. SLOCUM AND KATE D. MUSGRAVE Cooperative Institute for Research in the Atmosphere, Colorado State University, Fort Collins, Colorado (Manuscript received 24 October 2018, in final form 3 March 2019) ABSTRACT Diurnal oscillations of infrared cloud-top brightness temperatures (Tbs) in tropical cyclones (TCs) as inferred from storm-centered, direction-relative longwave infrared (;11 mm) imagery are quantified for Northern Hemisphere TCs (2005–15) using statistical methods. These methods show that 45%, 54%, and 61% of at least tropical storm-, hurricane-, and major hurricane-strength TC cases have moderate or strong diurnal 2 signals. Principal component analysis–based average behavior of all TCs with intensities of 34 kt (17.5 m s 1) or greater is shown to have a nearly symmetric diurnal signal where Tbs oscillate from warm to cold and cold to warm within and outside of a radius of approximately 220 km, with maximum central cooling occurring in the early morning (0300–0800 local standard time), and a nearly simultaneous maximum warming occurring near the 500-km radius—a radial standing wave with a node near 220-km radius. Amplitude and phase of these diurnal oscillations are quantified for individual 24-h periods (or cases) relative to the mean oscillation. Details of the diurnal behavior of TCs are used to examine preferred storm and environmental characteristics using a combination of spatial, composite, and regression analyses.
    [Show full text]
  • National Hurricane Operations Plan FCM-P12-2010
    U.S. DEPARTMENT OF COMMERCE/ National Oceanic and Atmospheric Administration OFFICE OF THE FEDERAL COORDINATOR FOR METEOROLOGICAL SERVICES AND SUPPORTING RESEARCH National Hurricane Operations Plan FCM-P12-2010 Hurricane Bill - 19 August 2009 Washington, DC May 2010 THE FEDERAL COMMITTEE FOR METEOROLOGICAL SERVICES AND SUPPORTING RESEARCH (FCMSSR) DR. JANE LUBCHENCO DR. RANDOLPH LYON Chairman, Department of Commerce Office of Management and Budget MS. SHERE ABBOTT MS. VICTORIA COX Office of Science and Technology Policy Department of Transportation DR. RAYMOND MOTHA MR. EDWARD CONNOR (Acting) Department of Agriculture Federal Emergency Management Agency Department of Homeland Security DR. JOHN (JACK) L. HAYES Department of Commerce DR. EDWARD WEILER National Aeronautics and Space MR. ALAN SHAFFER Administration Department of Defense DR. TIM KILLEEN DR. ANNA PALMISANO National Science Foundation Department of Energy MR. PAUL MISENCIK MR. KEVIN (SPANKY) KIRSCH National Transportation Safety Board Science and Technology Directorate Department of Homeland Security MR. JAMES LYONS U.S. Nuclear Regulatory Commission DR. HERBERT FROST Department of the Interior DR. LAWRENCE REITER Environmental Protection Agency MR. KENNETH HODGKINS Department of State MR. SAMUEL P. WILLIAMSON Federal Coordinator MR. MICHAEL BABCOCK, Secretariat Office of the Federal Coordinator for Meteorological Services and Supporting Research THE INTERDEPARTMENTAL COMMITTEE FOR METEOROLOGICAL SERVICES AND SUPPORTING RESEARCH (ICMSSR) MR. SAMUEL P. WILLIAMSON, Chairman MR. BARRY SCOTT Federal Coordinator Federal Aviation Administration Department of Transportation MR. THOMAS PUTERBAUGH Department of Agriculture DR. JONATHAN M. BERKSON United States Coast Guard DR. JOHN (JACK) L. HAYES Department of Homeland Security Department of Commerce DR. DEBORAH LAWRENCE RADM DAVID TITLEY, USN Department of State United States Navy Department of Defense DR.
    [Show full text]
  • The ITCZ in the Central and Eastern Pacific on Synoptic Time Scales
    MAY 2006 WANG AND MAGNUSDOTTIR 1405 The ITCZ in the Central and Eastern Pacific on Synoptic Time Scales CHIA-CHI WANG AND GUDRUN MAGNUSDOTTIR Department of Earth System Science, University of California, Irvine, Irvine, California (Manuscript received 23 June 2005, in final form 15 September 2005) ABSTRACT The ITCZ in the central and eastern Pacific on synoptic time scales is highly dynamic. The active season extends roughly from May through October. During the active season, the ITCZ continuously breaks down and re-forms, and produces a series of tropical disturbances. The life span of the ITCZ varies from several days to 3 weeks. Sixty-five cases of ITCZ breakdown have been visually identified over five active seasons (1999–2003) in three independent datasets. ITCZ breakdown can be triggered by two mechanisms: 1) interaction with westward-propagating disturbances (WPDs) and 2) the vortex rollup (VR) mechanism. Results show that the frequency of occurrence of ITCZ breakdown from these two mechanisms is the same. The VR mecha- nism may have been neglected because the produced disturbances are rather weak and they may dissipate quickly. The ITCZ shows a strong tendency to re-form within 1–2 days in the same location. The ITCZ may break down via the VR mechanism without any other support, and thus it may continuously generate numerous tropical disturbances throughout the season. There are two main differences between the two mechanisms: 1) The WPDs-induced ITCZ breakdown tends to create one or two vortices that may be of tropical depression strength. The VR-induced ITCZ breakdown generates several nearly equal-sized weak disturbances.
    [Show full text]