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X-ORIGINAL-URL:https://www.cessrst.org
X-WR-CALDESC:Events for NOAA Center for Earth System Sciences and Remote Sensing Technologies
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BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230822T133000
DTEND;TZID=America/New_York:20230822T140000
DTSTAMP:20260522T175803
CREATED:20230717T183705Z
LAST-MODIFIED:20230817T183727Z
UID:4259-1692711000-1692712800@www.cessrst.org
SUMMARY:NOAA Seminar Series: Arctic Feedbacks on Trace Gas Compositions.
DESCRIPTION:Title: Arctic Feedbacks on Trace Gas Compositions. \nSpeaker: Francia Tenorio\, NOAA EPP/MSI CESSRST-II Fellow at SDSU \nDate: August 22\, 20223 \nTime: 1:30 PM ET \nVenue: Virtual \nMeeting Link :  meet.google.com/ead-ypxo-gvb \nPhone Number\n(‪US‬)‪+1 219-321-0478‬\nPIN: ‪651 945 406#‬ \nLearn more about the speaker \nAbstract: \nPolar ecosystems are warming faster than any other region on Earth (IPCC 2022)\, posing many implications for tundra landscapes. The accelerated warming in the Arctic influences the rate and movement of nutrients in the soil and water\, plant growth\, microbial decomposition\, and thawing of the permafrost processes that occur across the landscape. This can release greenhouse gases (GHG) into the atmosphere. Since permafrost regions hold over half of all the estimated organic carbon stored in Earth’s soils and 40-60 Pg of nitrogen\, it is essential to understand changes across the Arctic landscape and how this influences climate dynamics locally and globally. Thermokarst formations\, which typically occur during the thawing of the permafrost\, may be sources of emissions in tundra landscapes and a reflection of rapid climate change. Microtopographic features\, particularly bare soils\, may be a hotspot for GHGs. The webinar will present a mapping effort of such features via remote sensing techniques in a tundra ecosystem near Utqiaġvik\, Alaska\, emphasizing the monitoring GHGs from such features. \n 
URL:https://www.cessrst.org/event/noaa-seminar-series-artic-feedbacks-on-trace-gas-compositions/
CATEGORIES:NOAA Seminar Series,Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230822T130000
DTEND;TZID=America/New_York:20230822T133000
DTSTAMP:20260522T175803
CREATED:20230717T183426Z
LAST-MODIFIED:20230817T183740Z
UID:4257-1692709200-1692711000@www.cessrst.org
SUMMARY:NOAA Seminar Series: Remote sensing of anthropogenic debris in stream channels
DESCRIPTION:Title: Remote sensing of anthropogenic debris in stream channels \nSpeaker: Elena Aguilar\, NOAA EPP/MSI CESSRST-II Fellow at SDSU \nDate: August 22\, 20223 \nTime: 1:30 PM ET \nVenue: Virtual \nMeeting Link :  meet.google.com/ead-ypxo-gvb \nPhone Number\n(‪US‬)‪+1 219-321-0478‬\nPIN: ‪651 945 406#‬ \nLearn more about the speaker \nAbstract: \nInadequate management of anthropogenic waste is a challenge for coastal waters in the US-Mexico border region. Managing waste requires detecting and monitoring locations where uncontrolled disposal and debris accumulation occurs at high rates. Watershed-scale remote sensing can aid the understanding of the distribution\, pools\, and fluxes of plastic materials in pluvial systems. The Los Laureles Canyon watershed (LLCW)\, located in Tijuana\, Mexico\, is a large source of plastic pollution for the Tijuana River Estuary in Imperial Beach\, California. Through a combination of field\, laboratory\, and remote sensing methods\, we identified surficial plastic materials and waste hotspots in LLCW and 6 visually assessed the utility of spectral mixture models and WorldView-3 (WV3) shortwave infrared (SWIR) broadband imagery for plastic mapping. Field trash surveys conducted in LLCW reveal channel reaches have large scale waste patches (4-10m²) as a result of dumping. Laboratory reflectance spectroscopy was used to characterize the diversity of plastic reflectance and assess spectral signatures to inform multispectral image analysis. Samples processed to date show plastics have consistent absorptions at about 1210 nm\, 1410 nm\, 1660-1730nm\, and 2100-2300nm wavelengths\, depending on the polymer type. When convolved to the spectral response function of the WV3 sensor\, mean plastic reflectance retains prominent features between 1660-1730 nm and above 2200 nm wavelengths\, similar to an image endmember observed through principal components analysis of LLCW imagery. A spectral mixture model uses the matched filtering algorithm and selected image endmember to map built-environment plastic infrastructure and waste hotspots in areas explored during field visits. \n 
URL:https://www.cessrst.org/event/noaa-seminar-series-remote-sensing-of-athropogenic-debris/
CATEGORIES:NOAA Seminar Series,Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230809T133000
DTEND;TZID=America/New_York:20230809T140000
DTSTAMP:20260522T175803
CREATED:20230806T191953Z
LAST-MODIFIED:20230806T191953Z
UID:4234-1691587800-1691589600@www.cessrst.org
SUMMARY:NOAA Seminar Series: Uncertainties in the retrieval of remote sensing reflectance from OC satellite observations
DESCRIPTION:Title: Uncertainties in the retrieval of remote sensing reflectance from OC satellite observations \nSpeaker: Eder Herrera Estrella\, NOAA EPP/MSI CESSRST-II Fellow at CUNY \nDate: August 9\, 20223 \nTime: 1:30 PM ET \nVenue: Virtual \nMeeting Link :  meet.google.com/xjr-zfee-aet \nPhone Number\n(‪US‬)‪+1 219-321-0478‬\nPIN: ‪651 945 406#‬ \nLearn more about the speaker \nAbstract: \nUncertainties in retrieving remote sensing reflectance\, Rrs\, from Ocean Color (OC) satellite sensors have a substantial impact on the performance of algorithms\, such as for the estimation of chlorophyll-a concentrations\, and inherent optical properties (IOPs). The impact is highest in the blue bands\, especially in coastal waters with low blue-band Rrs values. Sunlight propagates to the water and back to the top of the atmosphere (TOA) with the total radiance measured by the sensor capturing the radiances related to the instantaneous state of in-water conditions\, sky\, and sunlight reflected from the wind-roughened wave facets and light scattered on molecules and aerosols in the atmosphere. All these components are associated with uncertainties\, which together with the effects of the instrument noise and uncertainties in aerosol models in the atmospheric correction process\, contribute to uncertainties in the retrieved water-leaving radiance and remote sensing reflectance. Assuming that these uncertainties are mostly proportional to the corresponding radiances and taking advantage of the differences in the spectra of these radiances\, we analyzed the contribution of the components above to the total Rrs uncertainties in the SNPP-VIIRS level 2products for multiple scenes in the open ocean and coastal waters at different spatial resolutions. Results are complemented by data from several AERONET-OC sites and the VIIRS validation/calibration cruises and showed that the Rayleigh component (molecular scattering and surface effects) is the main source of 𝑅𝑟𝑠 uncertainties for any water type followed by water variability\, which has a bigger role in coastal areas\, while the contributions of other components including aerosol scattering are usually smaller \n 
URL:https://www.cessrst.org/event/noaa-seminar-series-uncertainties-in-retrieval-of-remote-sensing-reflectance/
CATEGORIES:NOAA Seminar Series,Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230809T130000
DTEND;TZID=America/New_York:20230809T133000
DTSTAMP:20260522T175803
CREATED:20230806T191545Z
LAST-MODIFIED:20230806T191652Z
UID:4231-1691586000-1691587800@www.cessrst.org
SUMMARY:NOAA Seminar Series: Mapping and monitoring turbidity in estuaries using remote sensing
DESCRIPTION:Title: Mapping and monitoring turbidity in estuaries using remote sensing and in-situ measurements \nSpeaker: Stephany Garcia\, NOAA EPP/MSI CESSRST-II Fellow at SDSU \nDate: August 9\, 20223 \nTime: 1:00 PM ET \nVenue: Virtual \nMeeting Link :  meet.google.com/xjr-zfee-aet \nPhone Number\n(‪US‬)‪+1 219-321-0478‬\nPIN: ‪651 945 406#‬ \nLearn more about the speaker \nAbstract: \nSatellite imagery of Southern California’s Tijuana River Outlet shows frequent turbid water plumes extending out into coastal water after storms and cross border flow events (Ayad et al.\, 2020). Turbid water has high concentrations of organic and inorganic materials that can carry harmful bacteria and pathogens (Warrick et al.\, 2012). In fresh and saline water systems\, such as estuaries\, water reflectance can reveal information about the biological productivity at different trophic states\, benthic environment suppression\, nutrient cycling\, and the overall habitat quality for water-dependent organisms (Barbier et al.\, 2011; Topp et al.\, 2020). However\, reflectance-based turbidity mapping is complicated by atmospheric conditions\, clouds\, and the reflectance of bottom materials in shallow water. Understanding the timing\, frequency\, and duration of turbid water events is often site-specific\, because of regional climate\, varying anthropogenic pressures\, sediment loading rates\, and geology (Elliott & McLusky\, 2002). For my NERTO\, a shallow water turbidity algorithm was used to identify turbidity hotspots in the tidal inland channels of TRNERR using the Sentinel-2 satellites. The goal was to quantify the accuracy of turbidity maps created from remote sensing by conducting Kayak Surveys and testing the water for suspended sediment concentrations (SSC) and Loss on Ignition (LOI). Initial findings revealed that ordering and receiving materials post-COVID was not possible in the course during a three-month NERTO period. Additionally\, because of high contamination levels in the TJR Estuary\, fieldwork was often prohibited. Moreover\, because the data sondes we are using have 6+ sensors\, equipment knowledge\, and troubleshooting became an essential part of my NERTO experience \n 
URL:https://www.cessrst.org/event/noaa-seminar-series-mapping-and-monitoring-turbidity-in-estuaries-using-remote-sensing/
CATEGORIES:NOAA Seminar Series,Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230726T130000
DTEND;TZID=America/New_York:20230726T140000
DTSTAMP:20260522T175803
CREATED:20230715T130947Z
LAST-MODIFIED:20231114T231925Z
UID:4357-1690376400-1690380000@www.cessrst.org
SUMMARY:NOAA Seminar Series: The Drivers and Consequences of Social Vulnerability to Disasters
DESCRIPTION:Event: NOAA Seminar Series \nTitle: The Drivers and Consequences of Social Vulnerability to Disasters \nPresenter: Fernando Tormos-Aponte\, Wendy Prudencio\, Gwendolyn Alexandre \nDate:  Jul 26\, 2023 \nTime: 12:00pm-1:00 PM \nSponsors:  NOAA Chemical Sciences Laboratory. \nSeminar Contact: jan.kazil@noaa.gov \nRemote Access: https://attendee.gotowebinar.com/register/7124906149160869466 \nAbstract: The Social Vulnerability and Resilience Lab (SOLVER) Research Lab is dedicated to advancing our understanding of social vulnerability\, resilience\, and preparedness in the face of disasters. SOLVER lab research adopts an interdisciplinary approach\, drawing from fields such as anthropology\, atmospheric science\, sociology\, political science\, and critical geography. By doing so\, the SOLVER Lab aims to contribute to and enrich these diverse fields while also developing innovative disaster recovery policies. The primary goal of these policies is to address the inequalities in disaster response and mitigate the potentially fatal consequences that arise from such disparities. The research highlights several key drivers and consequences of social vulnerability to disasters. Lab members will provide insight into the factors influencing the provision and restoration of electricity in the wake of disasters\, with a particular emphasis on the case of Puerto Rico after hurricane María. Wendy Prudencio will focus on the factors that influence post-disaster population displacement\, including unequal access to flood insurance. This research sheds light on how the availability and accessibility of insurance coverage impact the movement of people during and after disasters. Gwendolyn Alexandre explores the concept of compounding hazards\, where multiple threats or hazards overlap or occur in succession\, exacerbating the vulnerabilities of affected communities. By examining these compounding hazards\, the research deepens our understanding of the complex dynamics that contribute to social vulnerability during and after disasters. Overall\, the work conducted by the SOLVER Research Lab seeks to provide critical insights into the complexities of social vulnerability and resilience. By pushing the boundaries of existing knowledge and proposing alternative approaches to disaster resource allocation\, the lab aims to reduce inequalities in disaster response and minimize the devastating consequences that marginalized communities often face. \n 
URL:https://www.cessrst.org/event/drivers-consequences-social-vulnerability/
CATEGORIES:NOAA Seminar Series,Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230621T133000
DTEND;TZID=America/New_York:20230621T140000
DTSTAMP:20260522T175803
CREATED:20230608T184554Z
LAST-MODIFIED:20230620T210838Z
UID:4076-1687354200-1687356000@www.cessrst.org
SUMMARY:NOAA Seminar Series: Understanding the socioeconomic impacts of climate change
DESCRIPTION:Title: Understanding the socioeconomic impacts of climate change \nSpeaker: Selenea Gibson\, NOAA EPP/MSI CESSRST-II Fellow at UMBC \nDate: June 21\, 20223 \nTime: 1:30 PM ET \nVenue: Virtual \nMeeting Link :  meet.google.com/eeu-gete-ueb \nLearn more about the speaker \nAbstract: \nAir quality monitors maintained by the EPA are placed in large metropolitan statistical areas around the United States. The citizen science project\, PurpleAir works to place their monitors in Metropolitan Statistical Areas (MSAs) that the EPA is not covering. When looking at the geographic locations where PurpleAir monitors are placed\, we noticed that they seem to be in Whiter and richer tracts/block groups. Using Baltimore City as our primary focus\, we noticed that the EPA has one monitor and it is located in a highly affluent tracts/block groups outside the city. PurpleAir has multiple monitors placed throughout the city but are co-located to the prominent White L that stretches from Roland Park to Fells Point (Brown 2016). PurpleAir placed their monitors in well-known historical areas within Baltimore City and with the city being majority 62.8% African American\, residents who are BIPOC (Black\, Indigenous\, and People of Color) are less accounted for in the air quality data. The city structure of Baltimore displays racial capitalism and suburban segregation and is a gateway for creating other large metropolitan cites across the United States (Glotzer 2020). Our research question asks whether there is a racial disparity between the PurpleAir monitors and their geographic locations to those who are affluent and those who are BIPOC in Baltimore City. We want to investigate the gap of geographic locations containing the PurpleAir monitors starting with Baltimore City then moving on to the MSAs. To test our hypothesis\, we pulled all of the EPA/PurpleAir air quality monitors using API keys from open sourced websites. Then concentrated on the 2016-2020 5-year ACS survey data from the US Census Bureau and gathered unique fields needed to complete the analysis. Using spatial statistics and GIS software\, we created tables\, maps\, and plots to confirm our hypothesis. Our findings determined that there is a significant median household income and percent BIPOC difference when comparing PurpleAir tracts in MSAs\, especially in the Baltimore City area. We need more EPA and PurpleAir air quality monitors as there is not enough in Baltimore City. PurpleAir monitors are in predominantly Whiter tracts and block groups. For Portland and Seattle MSAs\, there are so many PurpleAir monitors that are measuring the majority of White tracts/block groups that it is skewing the data. Lastly\, we have a scale issue because Seattle and Portland have more PurpleAir monitors compared to Baltimore City and Philadelphia MSAs. We see a high amount of racial capitalism and highly uneven geographies in MSAs such as Portland and Seattle because of this. \n 
URL:https://www.cessrst.org/event/understanding-socio-economic-impacts-of-climate-change/
CATEGORIES:NOAA Seminar Series,Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230621T130000
DTEND;TZID=America/New_York:20230621T133000
DTSTAMP:20260522T175803
CREATED:20230608T184229Z
LAST-MODIFIED:20230620T210014Z
UID:4073-1687352400-1687354200@www.cessrst.org
SUMMARY:NOAA Seminar Series: Evaluation of operational flood forecasting models in Puerto Rico
DESCRIPTION:Title: Evaluation of operational flood forecasting models in Puerto Rico \nSpeaker: Gerado Trossi Torres\, NOAA EPP/MSI CESSRST-II Fellow at UPRM \nDate: June 21\, 20223 \nTime: 1:00 PM ET \nVenue: Virtual \nMeeting Link :  https://meet.google.com/eeu-gete-ueb \nLearn more about the speaker \nAbstract: The aim of this project NOAA Experiential Research and Training Opportunities (NERTO) project carried out at the Weather Forecast Office (WFO) in San Juan\, Puerto Rico (PR) is to analyze hydrological data from the National Water Model (NWM) and compare it with observed data from the United States Geological Survey (USGS). The established case study was a flash rainfall event in February of 2022. This rainfall event lasted three days\, which precipitation accumulations from 1 to 16 inches were measured\, affecting around 29 municipalities. The study examines 13 USGS stations where the most significant river flow occurred\, surpassing the established river flood stages\, covering 10 of the 29 affected municipalities. The NWM output data from two of four configurations added in the model’s latest version were analyzed\, specifically for Puerto Rico. Within these configurations\, two variables are considered to conduct the analysis. The first variable\, RAINRATE\, offers the rainfall forecast for the event over PR. The second variable\, streamflow\, was used to develop the flow behavior throughout the 48 hours of the event.\nThe streamflow forecast was evaluated with observed data during the event measured by USGS stations. From our results\, three stations were chosen that represent different forecast scenarios. In the first scenario\, a station in Caguas had a precipitation accumulation of 2-inch with low projected streamflow of 500 cubic feet per second (cfs). The second scenario is a station in Naguabo with a 2-inch accumulation measured\, and the projected streamflow was predominantly high at 7000cfs. The last scenario station at Patillas with a buildup of 0.5 inches with projected streamflow of 1800cfs. The main observation in these three scenarios was that the most significant influence on the behavior is the topography around the station and the direction of its downstream flowline. In a station located in a valley\, the model will not predict an immediate response compared to a station with steep topography.
URL:https://www.cessrst.org/event/evaluation-of-flood-forecast-models-in-pr/
CATEGORIES:NOAA Seminar Series,Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230614T130000
DTEND;TZID=America/New_York:20230614T140000
DTSTAMP:20260522T175803
CREATED:20230508T182014Z
LAST-MODIFIED:20230608T183812Z
UID:4069-1686747600-1686751200@www.cessrst.org
SUMMARY:NOAA Seminar Series: Enhancing NWS Heat Services through Urban Heat Island (UHI) Mapping Information
DESCRIPTION:Title: Enhancing NWS Heat Services through Urban Heat Island (UHI) Mapping Information \nSpeaker: Ileana Morales\, NOAA EPP/MSI CESSRST-II Fellow at UTEP \nMentors:  Danielle Nagele\, NOAA NWS \nDate: June 14\, 20223 \nTime: 1:00 PM ET \nVenue: Virtual \nMeeting Link : Google Meet \nLearn more about the speaker \nAbstract: The global climate crisis is a prevalent issue that will disproportionately affect vulnerable populations. With rising temperatures\, susceptibility to heat effects has caused concern about thermal comfort and urban heat during the summer. Prior work has indicated that urban heat islands (UHI) can have adverse health outcomes and can be exacerbated depending on geographic location\, race-ethnicity\, housing characteristics\, and socioeconomic disparities. When a comparison was made to demographic data the NIHHIS/NOAA UHI Mapping Campaigns conducted throughout the U.S indicated specific disproportionate heat effect throughout the different cities mapped. This current study analyzes the UHI effect throughout the city of San Diego by performing a spatial analysis combining physical and social vulnerability. In addition\, it examines how this information can be used by National Weather Service (NWS) Weather Forecast Offices (WFO) and their partners to create more effective heat products and messaging. We conducted informational interviews with WFO meteorologist and their partners on how to provide useful information based on the combination of UHI and social vulnerability data. Ultimately\, we formulated some recommendations and best practices by which WFOs and their partners can use to identify and address high-risk social-physical geographies in San Diego City\, using methods that can be transferred to other sites.
URL:https://www.cessrst.org/event/enhancing-nws-heat-services-thru-urban-heat-mapping/
CATEGORIES:NOAA Seminar Series,Seminar Series
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230223T130000
DTEND;TZID=America/New_York:20230223T140000
DTSTAMP:20260522T175803
CREATED:20230306T211012Z
LAST-MODIFIED:20230308T141425Z
UID:3634-1677157200-1677160800@www.cessrst.org
SUMMARY:NOAA Seminar Series: Modeling Complex 3-D Coastal-Urban Impacts on Air Quality Distribution
DESCRIPTION:Title: Modeling Complex 3-D Coastal-Urban Impacts on Air Quality Distribution: Evaluation Based on High-Spatial-Resolution NO2 Retrievals \nSpeaker: Harold Gamarro\, NOAA EPP/MSI CESSRST-II Fellow at CCNY \nDate: February 23\, 20223 \nTime: 1:00 PM ET \nVenue: Exhibit Room\, Steinman Hall at the Grove School of Engineering (1st floor) \nRegistration Link \nDownload the flyer here  \nHarold is a Ph.D. student in the Mechanical Engineering department at CCNY. He was awarded a NOAA EPP/MSI Graduate Fellowship for the\ninaugural class of 2021 and completed his fellowship year with the NOAA Chemical Sciences Laboratory. His research focuses on expanding our understanding of how cities interact with the atmosphere in the context of a changing climate\, as well as the consequences these interactions have on the exposure of people and infrastructure to weather extremes (Heat and Air Quality).
URL:https://www.cessrst.org/event/seminar-by-harold-gamarro/
CATEGORIES:NOAA Seminar Series,Seminar Series
ATTACH;FMTTYPE=image/jpeg:https://www.cessrst.org/wp-content/uploads/2023/03/HaroldGamarro.jpg
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=America/New_York:20230223T123000
DTEND;TZID=America/New_York:20230223T133000
DTSTAMP:20260522T175803
CREATED:20230329T222245Z
LAST-MODIFIED:20260305T163223Z
UID:3784-1677155400-1677159000@www.cessrst.org
SUMMARY:NOAA EPP CSC Education Seminar Series:  All about NOAA
DESCRIPTION:NOAA EPP/MSI CSC Education Seminar Series; a collaboration between NOAA EPP/MSI Cooperative Science Centers-CCME II\, NCASS II\, LMRCSC II\, and CESSRST II was launched today. \nTitle:  All about NOAA \nDate: February 23\, 2023 \nTime: 12:30pm \nSpeakers:  Jason Tuell\, Chris Kelble\, Joseph Pica\, and Jon Hare \nVirtual: please use this  zoom link to register \nDuring the seminar\, speakers- Jason Tuell (NWS)\, Chris Kelble (OAR)\, Joseph Pica (NESDIS)\, and Jon Hare (NMFS) provide insights on National Oceanic and Atmospheric Administration (NOAA) and its mission through their own experiences. They talk about NOAA workforce and opportunities for CSC students. \nThe purpose of the NOAA EPP/MSI CSC Education Seminar Series is to provide a platform for cross center education and training collaborations and engagement for all CSC student in NOAA mission training and opportunities \nThis seminar series provides the NOAA EPP/MSI Fellows an opportunity to meet with the entire CSC community and fellows/peers from other three NOAA Centers\, interact and network with NOAA professionals to gain knowledge about NOAA and its missions\, and build connections/pathways to potential NOAA mission enterprise workforce opportunities; gain the opportunity to participate in a Q&A session.
URL:https://www.cessrst.org/event/csc-education-seminar-series/
CATEGORIES:NOAA Seminar Series,Seminar Series
ATTACH;FMTTYPE=image/jpeg:https://www.cessrst.org/wp-content/uploads/2023/03/EducationSeminar01.jpg
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