Observed sea breeze life cycle in and around NYC: Impacts on UHI and ozone patterns

Han, Zaw; González-Cruz, Jorge E.; Liu, H.N.; Melecio-Vázquez, David; Gamarro, Harold; Wu, Yonghua; Moshary, Fred; Bornstein, Robert D.

doi:10.1016/j.uclim.2022.101109

Cited by 13 publications

(3 citation statements)

References 38 publications

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“…Moreover, climate change can also contribute to temperature anomalies. Studies have shown that climate change can cause shifts in rainy and dry seasons, subsequently affecting temperature and vegetation patterns in a region [22]. These shifts can lead to changes in vegetation distribution and plant growth patterns, ultimately impacting temperatures around the coal mining area.…”

Section: Temperature Vegetation Dryness Index (Tvdi)mentioning

confidence: 99%

Assessing Drought Risk in Forest Zones Near Coal Mines with TVDI

Taati 10.47738/jads.v5i2.220

2024

J. Appl. Data Sci.

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Section: Temperature Vegetation Dryness Index (Tvdi)mentioning

confidence: 99%

Assessing Drought Risk in Forest Zones Near Coal Mines with TVDI

Taati 10.47738/jads.v5i2.220

2024

J. Appl. Data Sci.

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“…The European Cloud Observation Network employs 14 radiometers for cloud observations and modeling [11]. The Network for the Detection of Atmospheric Composition Change (NDAC) employs a global network to understand the upper atmospheric concentration of key trace gases [12]. MWRs have been deployed in ship fields (Liu, 1983;Schnitt et al, 2024); both the National Oceanic and Atmospheric Administration and the Department of Energy's Atmospheric Radiation Measurement program extensively use MWRs [13,14].…”

Section: Introductionmentioning

confidence: 99%

On the Applicability of Ground-Based Microwave Radiometers for Urban Boundary Layer Research

Bartsevich,

Rahman,

Addasi

et al. 2024

Sensors

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Significant knowledge gaps exist in our understanding of urban boundary layer processes, particularly the hygrothermal state. The earth system community has successfully used microwave radiometers for several decades. However, the applicability in complex urban environments has never been adequately tested. Here, observations from a microwave radiometer are compared to radiosonde readings in a densely urbanized site in Houston, Texas. The site was influenced by both an urban heat island and the sea breeze phenomenon. The analysis showed significant disagreement between the virtual potential temperature predicted by the microwave radiometer and the radiosonde for all periods within the boundary layer. However, the values were reasonably comparable above the boundary layer. The microwave radiometer incorrectly predicted an inversion layer instead of a mixed layer during convective periods. The microwave radiometer measurements deviated from the radiosonde measurements throughout the lower troposphere for the relative humidity.

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“…The work from these campaigns has improved the understanding of ozone formation at land‐water interfaces and have provided insight into how meteorology specific to coastal locations may impact the distribution of ozone and its precursors. Current insights shed light on the importance of a priori input resolution used in satellite retrievals (Judd et al., 2020), characterize the influence of meteorology on ozone concentrations in urban settings (Han et al., 2022; Kotsakis et al., 2022; J. Zhang et al., 2020), and evaluate ability of models to accurately reproduce sea breeze circulations and their impacts on ozone formation and ozone precursor transport (Abdi‐Oskouei et al., 2020; Ma et al., 2021).…”

Section: Introductionmentioning

confidence: 99%

New Insights Into the Role of Atmospheric Transport and Mixing on Column and Surface Concentrations of NO₂ at a Coastal Urban Site

2023

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Nitrogen dioxide (NO 2 ) is a criteria air pollutant that directly impacts human health and the environment (Brauer et al., 2012;Chitano et al., 1995;O'Connor et al., 2008;Stieb et al., 2012). NO 2 contributes to photochemical smog by reacting with other atmospheric constituents to produce tropospheric ozone (O 3 ) and particulate matter, and can affect the atmospheric lifetime of greenhouse gasses by influencing hydroxyl radical concentrations (Jacob, 2019). Anthropogenic NO x (NO + NO 2 ) emissions result from power generation, industry, vehicles, and other fossil fuel burning activities (Anttila et al., 2011; European Environment Agency, 2016), with urban areas generally being dominated by the mobile sector (EPA's Report on the Environment (ROE) | US EPA, 2022;EPA, U.S., 2017;Itano et al., 2007). NO x that is naturally emitted by lightning and soils also contributes substantially to the global budget (Verma et al., 2021;Weng et al., 2020).

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Observed sea breeze life cycle in and around NYC: Impacts on UHI and ozone patterns

Cited by 13 publications

References 38 publications

Assessing Drought Risk in Forest Zones Near Coal Mines with TVDI

Assessing Drought Risk in Forest Zones Near Coal Mines with TVDI

On the Applicability of Ground-Based Microwave Radiometers for Urban Boundary Layer Research

New Insights Into the Role of Atmospheric Transport and Mixing on Column and Surface Concentrations of NO₂ at a Coastal Urban Site

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Observed sea breeze life cycle in and around NYC: Impacts on UHI and ozone patterns

Cited by 13 publications

References 38 publications

Assessing Drought Risk in Forest Zones Near Coal Mines with TVDI

Assessing Drought Risk in Forest Zones Near Coal Mines with TVDI

On the Applicability of Ground-Based Microwave Radiometers for Urban Boundary Layer Research

New Insights Into the Role of Atmospheric Transport and Mixing on Column and Surface Concentrations of NO2 at a Coastal Urban Site

Contact Info

Product

Resources

About

New Insights Into the Role of Atmospheric Transport and Mixing on Column and Surface Concentrations of NO₂ at a Coastal Urban Site