Event-Based Climatology and Typology of Fog in the New York City Region

Event-Based Climatology and Typology of Fog in the New York City Region

VOLUME 46 JOURNAL OF APPLIED METEOROLOGY AND CLIMATOLOGY AUGUST 2007 Event-Based Climatology and Typology of Fog in the New York City Region ROBERT TARDIF Research Applications Laboratory, National Center for Atmospheric Research,* and Department of Atmospheric and Oceanic Sciences, University of Colorado, Boulder, Colorado ROY M. RASMUSSEN Research Applications Laboratory, National Center for Atmospheric Research,* Boulder, Colorado (Manuscript received 6 March 2006, in final form 3 November 2006) ABSTRACT The character of fog in a region centered on New York City, New York, is investigated using 20 yr of historical data. Hourly surface observations are used to identify fog events at 17 locations under the influence of various physiographic features, such as land–water contrasts, land surface character (urban, suburban, and rural), and terrain. Fog events at each location are classified by fog types using an objective algorithm derived after extensive examination of fog formation processes. Events are characterized accord- ing to frequency, duration, and intensity. A quantitative assessment of the likelihood with which mecha- nisms leading to fog formation are occurring in various parts of the region is obtained. The spatial, seasonal, and diurnal variability of fog occurrences are examined and results are related to regional and local influences. The results show that the likelihood of fog occurrence is influenced negatively by the presence of the urban heat island of New York City, whereas it is enhanced at locations under the direct influence of the marine environment. Inland suburban and rural locations also experience a considerable amount of fog. As in other areas throughout the world, the overall fog phenomenon is a superposition of various types. Precipitation fog, which occurs predominantly in winter, is the most common type. Fog resulting from cloud-base lowering also occurs frequently across the region, with an enhanced likelihood in winter and spring. A considerable number of advection fog events occur in coastal areas, mostly during spring, whereas radiation fog occurs predominantly at suburban and rural locations during late summer and early autumn but also occurs during the warm season in the coastal plain of New Jersey as advection–radiation events. 1. Introduction duce the number of weather delays by 20%–35%. On a national scale, such reductions could save between $500 Poor visibility associated with the presence of fog and $875 million annually. The study by Wilson and represents a hazard to aviation, marine, and road trans- Clark (1997) shows daily cost benefits of $100,000– portation worldwide (Croft 2003). Because of safety $1,000,000 associated with accurate forecasts of onset concerns, fog occurrences are associated with disrup- and dissipation of stratus clouds and fog. Allan et al. tions in air traffic at airports and navigation in marine (2001) found that timely forecasts of changes in ceiling ports. Unforeseen reductions in airport capacity asso- or visibility could lead to savings of $500,000 per event ciated with reduced ceiling and visibility lead to signifi- at the busy air terminals in the New York City (NYC), cant cost increments to the large air carriers. Valdez New York, area. For the general aviation community, (2000) concluded that more accurate forecasts of cloud fog is a major safety concern because accidents often ceiling or visibility with a 30-min lead time would re- occur in reduced visibility conditions (Whiffen 2001). Fog also contributes to creating hazardous conditions * The National Center for Atmospheric Research is sponsored on the roads, as evidenced by the numerous multive- by the National Science Foundation. hicle accidents occurring each year under poor visibility conditions (Whiffen et al. 2003). These are exacerbated Corresponding author address: Robert Tardif, National Center in complex urban environments. for Atmospheric Research, Box 3000, Boulder, CO 80301. Advances in the understanding of the physics of fog E-mail: [email protected] have been made through numerous field experiments DOI: 10.1175/JAM2516.1 © 2007 American Meteorological Society 1141 Unauthenticated | Downloaded 10/06/21 02:10 PM UTC JAM2516 1142 JOURNAL OF APPLIED METEOROLOGY AND CLIMATOLOGY VOLUME 46 (Taylor 1917; Roach et al. 1976; Choularton et al. 1981; general indication of the geographical distribution of Meyer et al. 1986; Findlater et al. 1989; Fitzjarrald and dominant fog types (Willett 1944; Byers 1959; Petters- Lala 1989; Duynkerke 1991; Fuzzi et al. 1998) and mod- sen 1969). These studies do not provide a level of detail eling studies (Lala et al. 1975; Turton and Brown 1987; sufficient enough to identify either the mechanisms in- Ballard et al. 1991; Bott 1991; Golding 1993; Bergot and fluencing the formation of all forms of fog or their Guédalia 1994; Teixeira 1999; Nakanishi 2000; space–time variability at the regional scale. Pagowski et al. 2004; Koracˇin et al. 2005; Thompson et The goals of the work presented herein are the iden- al. 2005). Most of these studies focused on a single type tification and classification of fog events into specific of fog, either radiation or sea (advection) fog. There- types that reflect the primary mechanism responsible fore, a complete understanding of the processes influ- for their formation in the complex environment of the encing the life cycle of fog in its numerous forms re- NYC region.1 The characterization of the spatial and mains elusive. This is particularly true for fog occurring temporal variability of fog is also an objective. This in areas characterized by a complex environment. One approach is deemed more insightful than general sta- such region is the West Coast of the United States, tion climatologies because it provides specific informa- where sea fog has been studied extensively [see Leipper tion about the distribution (spatial and temporal) of (1994) and listed references therein, as well as the more fog-forming mechanisms. The approach provides an al- recent work of Koracˇin et al. (2001), Lewis et al. (2003), ternative to the synoptic classification approach (e.g., Koracˇin et al. (2005), and Thompson et al. (2005)]. The Croft and Burton 2006) by focusing on the local-scale complex coastline and topography, variations in land aspects of fog formation rather than on large-scale surface characteristics, and high levels of pollution weather patterns. The characterization of the associ- provide a wide range of influences that can potentially ated large-scale weather patterns and other influences affect the dynamical behavior (Fitzjarrald and Lala follows naturally once specific fog types have been 1989; Sachweh and Koepke 1997) and microphysical identified, as shown by Meyer and Lala (1990). The characteristics of fog (Goodman 1977; Hudson 1980; analysis of large-scale weather patterns and other envi- Bott 1991). [See also the online University Corporation ronmental conditions associated with fog events for for Atmospheric Research/Cooperative Program for each fog type will be the subject of future efforts. Operational Meteorology, Education and Training Section 2 presents the dataset used in this study and (UCAR/COMET) modules for comprehensive discus- the various analysis procedures used to identify and sions on factors affecting fog (http://www.meted.ucar. characterize fog events. The overall character of fog is edu/topics_fog.php).] described in section 3, and section 4 contains an analy- The NYC region, located on the eastern seaboard of sis of the character of the various fog types. A discus- the United States, is another fog-prone coastal region sion is presented in section 5, and conclusions are out- with similar physiographic complexities (complex lined in section 6. coastline; presence of urban, suburban, and rural areas; valleys; and rivers and lakes) and with significant vari- 2. Dataset and analysis procedure ability in aerosols (Ito et al. 2004). However, fog in that part of the United States has not been studied as ex- a. Datasets tensively as on the West Coast. George (1940) per- The main surface data used in this study are from the formed pioneering work on the identification of fog-in- National Oceanic and Atmospheric Administration ducing mechanisms and associated weather regimes for Techniques Development Laboratory Surface Hourly several locations in the eastern and southern United Observations dataset (National Center for Atmo- States, with one location in the general vicinity of NYC. spheric Research 2006). These are complemented by Fitzjarrald and Lala (1989) and Meyer and Lala (1990) data from a buoy located south of Long Island to char- studied boundary layer mechanisms and climatological acterize offshore conditions during specific fog events. parameters associated with radiation fog for a location Hourly land surface observations of visibility, tempera- in the Hudson Valley, north of NYC. More recently, ture, dewpoint temperature, wind speed and direction, Croft and Burton (2006) examined the relationship be- ceiling height, cloud cover, coded obstruction to vision, tween the extent of fog and the various synoptic and precipitation type and intensity, covering the pe- weather patterns during a single winter season in the northern mid-Atlantic part of the United States. Other 1 This work is in support of a project funded by the Federal studies provide general annual (Peace 1969) and Aviation Administration focused on the improvement of forecasts monthly (Hardwick 1973) fog frequencies at the na- of low cloud ceiling and reduced visibility (fog) occurrences at tional scale, while others have attempted to provide a New York City’s airports. Unauthenticated | Downloaded 10/06/21 02:10 PM UTC AUGUST 2007 TARDIF AND RASMUSSEN 1143 FIG. 1. Map showing the land use of a region centered on New York City, as well as the locations of the 17 land surface stations and the buoy (44025) used in this study. riod from 1977 to 1996, are used to identify and char- Stations were selected such that the main physi- acterize fog events. This dataset contains data from a ographic characteristics of a region centered on NYC period of homogeneous reporting practices, before the are represented.

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