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Adapting without retreating : responses to shoreline change on an inlet-associated coastal beach (2017)

Fallon, Andrew R. ; Hoagland, Porter ; Jin, Di ; [et al.]

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Publication Date: 2022-05-25

Description: Author Posting. © The Author(s), 2017. This is the author's version of the work. It is posted here under a nonexclusive, irrevocable, paid-up, worldwide license granted to WHOI. It is made available for personal use, not for redistribution. The definitive version was published in Coastal Management 45 (2017): 360-383, doi:10.1080/08920753.2017.1345607.

Description: Coastal barrier systems around the world are experiencing higher rates of flooding and shoreline erosion. Property owners on barriers have made significant financial investments in physical protections that shield their nearby properties from these hazards, constituting a type of adaptation to shoreline change. Factors that contribute to adaptation on Plum Island, a developed beach and dune system on the North Shore of Massachusetts, are investigated here. Plum Island experiences patterns of shoreline change that may be representative of many inlet-associated beaches, encompassing an equivocal and dynamically shifting mix of erosion and accretion. In the face of episodic floods and fleeting erosive events, and driven by a combination of strong northeast storms and cycles of erosion and accretion, the value of the average Plum Island residence increases by 34% for properties on the oceanfront where protection comprises a publicly constructed soft structure. Even in the face of state policies that ostensibly discourage physical protection as a means of adaptation, coastal communities face significant political and financial pressures to maintain existing protective structures or to allow contiguous groups of property owners to build new ones through collective action. These factors mitigate against adapting to shoreline change by retreating from the coast, thereby potentially increasing the adverse effects of coastal hazards.

Description: Support for this study was provided by NSF Grant Nos. OCE 1325430 and AGS 1518503 and NOAA Cooperative Agreement No. NA14OAR4170074.

Keywords: Adaptation ; Structural protection ; Coastal dune resource ; Tidal-associated inlet ; Hedonic pricing

Repository Name: Woods Hole Open Access Server

Type: Preprint

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12

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The ecosystem services of the ocean's twilight zone (2019)

Hoagland, Porter

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Publication Date: 2022-05-25

Description: Presented at the University of Connecticut at Avery Point, January 30, 2019, Groton, Connecticut

Description: The mesopelagic, or the “ocean’s twilight zone” (OTZ), occurring at depths between 200-1000m, is renowned for its unusual life forms, including 13 species of bristlemouths, which are thought to be the most numerous vertebrates on earth. Irigoien et al. (2014) have raised the median estimates of OTZ fish biomass by an order of magnitude to ~11-16 Bt, although much uncertainty surrounds this estimate (7-214 Bt). OTZ fish help support stocks of apex predators, including marine mammals and commercially important fish and cephalopods, and some observers have suggested that they could constitute an enormous potential source of protein for human consumption per se. Diel vertical migrations of zooplankton, fish, squids, jellies, salps, and other organisms comprise a “biological carbon pump” that may facilitate the very long-term sequestration of carbon in deep waters or on the seabed. The net amounts of carbon sequestered in the ocean are also highly uncertain, with estimates ranging between 4-12 Bt annually. The OTZ can be conceptualized as a stock of differentiated natural capital, subject to capital gains or losses, that may yield flows of benefits, termed “ecosystem services.” Here, approaches developed through the Millennium Ecosystem Assessment are utilized as an organizing framework for beginning to assess and evaluate OTZ ecosystem services. Understanding the benefits associated with these services is central to gauging the opportunity costs of activities that might diminish those benefits, such as unregulated fishery exploitation or the effects associated with climate changes in the ocean, including warming, acidification, decreased dissolved oxygen levels, or shifts in biological diversity. Such an understanding is foundational for conserving the OTZ in a sustainable way. The potential relevance of OTZ scientific research to contemporary developments in the international law of the high seas is discussed as well.

Repository Name: Woods Hole Open Access Server

Type: Presentation

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Marine harmful algal blooms, human health and wellbeing : challenges and opportunities in the 21st century (2016)

Berdalet, Elisa ; Fleming, Lora E. ; Gowen, Richard J. ; [et al.]

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Publication Date: 2022-05-25

Description: Author Posting. © Marine Biological Association of the United Kingdom, 2015. This is the author's version of the work. It is posted here by permission of Marine Biological Association of the United Kingdom for personal use, not for redistribution. The definitive version was published in Journal of the Marine Biological Association of the United Kingdom 96 (2016): 61-91, doi:10.1017/S0025315415001733.

Description: Microalgal blooms are a natural part of the seasonal cycle of photosynthetic organisms in marine ecosystems. They are key components of the structure and dynamics of the oceans and thus sustain the benefits that humans obtain from these aquatic environments. However, some microalgal blooms can cause harm to humans and other organisms. These harmful algal blooms (HABs) have direct impacts on human health and negative influences on human wellbeing, mainly through their consequences to coastal ecosystem services (valued fisheries, tourism and recreation) and other marine organisms and environments. HABs are natural phenomena, but these events can be favoured by anthropogenic pressures in coastal areas. Global warming and associated changes in the oceans could affect HAB occurrences and toxicity as well, although forecasting the possible trends is still speculative and requires intensive multidisciplinary research. At the beginning of the 21st century, with expanding human populations, particularly in coastal and developing countries, there is an urgent need to prevent and mitigate HABs’ impacts on human health and wellbeing. The available tools to address this global challenge include maintaining intensive, multidisciplinary and collaborative scientific research, and strengthening the coordination with stakeholders, policymakers and the general public. Here we provide an overview of different aspects to understand the relevance of the HABs phenomena, an important element of the intrinsic links between oceans and human health and wellbeing.

Description: The research was funded in part by the UK Medical Research Council (MRC) and UK Natural Environment Research Council (NERC) for the MEDMI Project; the National Institute for Health Research Health Protection Research Unit (NIHR HPRU) in Environmental Change and Health at the London School of Hygiene and Tropical Medicine in partnership with Public Health England (PHE), and in collaboration with the University of Exeter, University College London and the Met Office; and the European Regional Development Fund Programme and European Social Fund Convergence Programme for Cornwall and the Isles of Scilly (University of Exeter Medical School). EB was supported by the CTM2014-53818-R project, from the Spanish Government (MINECO). KDA was in receipt of funding from the BBSRC-NERC research programme for multidisciplinary studies in sustainable aquaculture: health, disease and the environment. P. Hess was supported by Ifremer (RISALTOX) and the Regional Council of the Pays de la Loire (COSELMAR). Porter Hoagland was supported by the US National Science Foundation under NSF/CNH grant no. 1009106.

Description: 2016-05-20

Keywords: Harmful algal blooms ; Human health and wellbeing ; Marine biotoxins ; Ecosystem services

Repository Name: Woods Hole Open Access Server

Type: Preprint

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CHANS : modeling the dynamics of HABs, human communities, and policy choices along the Florida Gulf Coast (2016)

Hoagland, Porter ; Kirkpatrick, Barbara ; Kirkpatrick, Gary ; [et al.]

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Publication Date: 2022-05-25

Description: Presented at the Eighth Symposium on Harmful Algae in the U.S., Long Beach, California, November 15 – 19, 2015

Description: Coupled human-nature systems (CHANS) involve dynamic interactions between humans and nature, often influenced by and affecting the distinct dynamic characteristics of each component. We present an overview of an ongoing interdisciplinary research program focused on a specific type of systems that couple expanding and fluctuating human coastal populations to episodic blooms of toxic marine algae, drawing examples primarily from human interactions with blooms of the toxic dinoflagellate Karenia brevis from the eastern Gulf of Mexico (“Florida red tides”). We introduce a set of HAB Symposium “speed” presentations and associated posters based on multi-disciplinary research. Using extant, but extraordinary, data to specify empirical models, this program of research has focused on characterizing the influence of anthropogenic sources on K. brevis blooms, assessing the public health and economic impacts of these blooms in an exposure-response framework, and defining the choice of appropriate human policy responses to the hazard. We present examples of the generic aspects of CHANS systems in the context of Florida red tides, and we discuss also some of the challenges involved in compiling and analyzing the relevant data to support our positive and normative analytical efforts.

Description: NSF/CNH NO.1009106

Keywords: Coupled human-nature systems ; CHANS ; HAB ; Harmful algae bloom

Repository Name: Woods Hole Open Access Server

Type: Presentation

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Modeling the influence of environmental factors on human respiratory irritation from natural exposures to Karenia brevis aerosols (2016)

Kirkpatrick, Gary ; Kirkpatrick, Barbara ; Hitchcock, Gary ; [et al.]

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Publication Date: 2022-05-25

Description: Presented at CERF 2015: Grand Challenges in Coastal & Estuarine Science, Portland, Oregon, November 8 - 12, 2015 and at the Eighth Symposium on Harmful Algae in the U.S., Long Beach, California, November 15 – 19, 2015.

Description: The Coupled Natural and Human Systems program of US National Science Foundation is supporting our effort to elucidate linkages between harmful algal blooms and associated impacts on human health, society and economy of coastal communities. The human respiratory system is negatively impacted by inhaled toxic aerosols from the Florida red tide dinoflagellate, Karenia brevis. It has been hypothesized that surf height, wind speed, and wind direction were the predominant factors determining the amount of toxin reaching exposed individuals. Recent findings indicate that there are more environmental factors influencing the level of respiratory impacts from brevetoxins. We report on analyses that include additional factors such as air temperature, water temperature, dew point, barometric pressure, K. brevis cell counts, annd distance and direction from K. brevis cells to the individual. Factors contributing most to differences between no respiratory irritation and mild respiratory irritation were water temperature, air temperature, and dew point. Those factors contributing most to differences between mild respiratory irritation and moderate respiratory irritation were wind direction, surf conditions, and wind speed. Data on respiratory impacts was provided by the Beach Conditions Reporting System (BCRS). This system provides twice daily reports from lifeguards and park rangers at public beaches. These subjective reports include observed levels of respiratory irritation among beach-goers. Other environmental data were provided by a variety of local sources including private and public weather stations and many monitoring and research efforts. The resultant model provides a means to forecast respiratory impacts from observations of HAB distribution, and meteorological and oceanographic conditions.

Description: ECOHAB FL – NA06NOS478024; NSF Coupled Human and Natural Systems - # 1009106; Research Experience for Undergraduates - # 0453955; FWCC – FL Red Tide Cooperative Agreements

Keywords: Florida Red Tide ; Harmful algae bloom ; HAB

Repository Name: Woods Hole Open Access Server

Type: Presentation

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The neurological effects of Florida Red Tide (FRT) blooms [poster] (2016)

Diaz, Roberto E. ; Moore, Tamecia ; Ullmann, Steven G. ; [et al.]

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Publication Date: 2022-05-25

Description: Presented at the Eighth Symposium on Harmful Algae in the U.S. November 15 - 19, 2015, Long Beach, California

Description: Karenia brevis is a marine dinoflagellate responsible for Florida red tide (FRT) blooms off the west coast of Florida. K. brevis contains brevetoxins, a neurotoxin that is absorbed by shellfish as well as released into the air. Brevetoxins are known to cause disruptions in normal neurological functions and are associated with neurotoxic shellfish poisoning (NSP). Previous research has emphasized the effect of FRT blooms on human health, from gastrointestinal to respiratory illnesses. However, there has been little research examining the effect of FRT blooms on neurological illnesses. There is research highlighting the biochemical effects of brevetoxins on mammalian nervous systems, so these symptoms can be matched to hospital codes that describe a hospital patient’s affliction. With these hospitalization codes, it is possible to study the relationship between FRT blooms and the occurrence of neurological illnesses in affected counties. The hospital data consists of inpatient data from 1988-2010 and emergency room data from 2005-2010. We will also use data containing K. brevis cells per liter as a measure of red tide occurrences.

Description: This research was sponsored by the National Science Foundation under NSF/CNH grant no. 1009106

Keywords: Florida Red Tide ; Harmful algae bloom ; HAB

Repository Name: Woods Hole Open Access Server

Type: Presentation

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Tradeoffs in coastal and marine spatial planning for the US Northeast LME (2017)

Hoagland, Porter ; Jin, Di

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Publication Date: 2022-05-25

Description: Presented at the ICES Annual Science Conference, Gdańsk, Poland, 19–23 September 2011

Repository Name: Woods Hole Open Access Server

Type: Presentation

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Valuing environmental education as a cultural ecosystem service at Hudson River Park (2018)

Hutcheson, Walter ; Hoagland, Porter ; Jin, Di

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Publication Date: 2022-05-25

Description: Author Posting. © The Author(s), 2018. This is the author's version of the work. It is posted here under a nonexclusive, irrevocable, paid-up, worldwide license granted to WHOI. It is made available for personal use, not for redistribution. The definitive version was published in Ecosystem Services 31C (2018): 387-394, doi:10.1016/j.ecoser.2018.03.005.

Description: The Hudson River and its estuary is once again an ecologically, economically, and culturally functional component of New York City’s natural environment. The estuary's cultural significance may derive largely from environmental education, including marine science programs for the public. These programs are understood as “cultural” ecosystem services but are rarely evaluated in economic terms. We estimated the economic value of the Hudson River Park’s environmental education programs. We compiled data on visits by schools and summer camps from 32 New York City school districts to the Park during the years 2014 and 2015. A “travel cost” approach was adapted from the field of environmental economics to estimate the value of education in this context. A small—but conservative—estimate of the Park’s annual education program benefits ranged between $7,500-$25,500, implying an average capitalized value on the order of $0.6 million. Importantly, organizations in districts with high proportions of minority students or English language learners were found to be more likely to participate in the Park’s programs. The results provide an optimistic view of the benefits of environmental education focused on urban estuaries, through which a growing understanding of ecological systems could lead to future environmental improvements.

Description: We thank the Hudson River Foundation and Woods Hole Oceanographic Institution’s Summer Student Fellow program for financial support.

Keywords: Ecosystem services ; Environmental education ; Hudson River ; Economic benefits ; Travel cost method ; Urban

Repository Name: Woods Hole Open Access Server

Type: Preprint

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Shoreline change, seawalls, and coastal property values (2015)

Jin, Di ; Hoagland, Porter ; Au, Donna K. ; [et al.]

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Publication Date: 2022-05-25

Description: Author Posting. © The Author(s), 2015. This is the author's version of the work. It is posted here by permission of Elsevier for personal use, not for redistribution. The definitive version was published in Ocean & Coastal Management 114 (2015): 185-193, doi:10.1016/j.ocecoaman.2015.06.025.

Description: We investigate the effects of shoreline change and protective structures (seawalls) on home values, using data on residences sold between 2000 and 2010 in the coastal towns of Marshfield, Duxbury, and Plymouth, Massachusetts. These towns comprise shorelines that exhibit moderate rates of shoreline change, relative to other shorelines in the state, with extensive armoring. We investigate explicitly the effects of hard structural protection in combination with environmental amenities and hazards (distance to a beach, elevation of a property, location in a flood zone). We find that homeowners pay a premium in housing markets for nearshore properties protected by nature (higher elevations or more stable shorelines) or by humans (seawalls). The average marginal increase in nearshore property values associated with a 1m rise in elevation is 2 percent, a 1m (horizontal distance) decrease in the erosion rate is 0.2 percent, and location behind a seawall is 10 percent. The effects of erosion, elevation, and seawalls appear to be limited to properties located in close proximity to water or to oceanfront residences. Overall, the benefits of access to ocean amenities dominate the risks of exposures to hazards associated with shoreline change.

Description: This article was prepared under award number NA10OAR4170083 (WHOI Sea Grant Omnibus) from the US Department of Commerce, National Oceanic and Atmospheric Administration (Northeast Regional Sea Grant Consortium project 2014-R/P-NERR-14-1-REG); award number GEO-0815875 from the US National Science Foundation (Dynamics of Coupled Natural and Human Systems [CNH]); award number NSF/OCE 1325430 from the US National Science Foundation; and with support from the J. Seward Johnson Fund in Support of the Marine Policy Center and the John E. Sawyer Endowed Fund.

Repository Name: Woods Hole Open Access Server

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Coupled nature-human (CNH) systems : generic aspects of human interactions with blooms of Florida Red Tide (Karenia brevis) and implications for policy responses (2016)

Hoagland, Porter

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Publication Date: 2022-05-25

Description: Author Posting. © The Author(s), 2013. This is the author's version of the work. It is posted here for personal use, not for redistribution. The definitive version was published in Toxins and Biologically Active Compounds from Microalgae, Volume 2: Biological Effects and Risk Management, edited by Gian Paolo Rossini, :502-537. CRC Press, 2014. ISBN: 9781482231465.

Description: Coupled nature-human (CNH) systems are now the focus of a growing number of interdisciplinary re-search programs worldwide (Liu et al. 2007a). As implied by the term “coupled,” these systems involve interactions between nature and humans, often affecting the dynamic characteristics of each component. Natural and social scientists supported by the US National Science Foundation and other research sponsors are engaged in developing a deeper understanding of these dynamics, focusing on the linkages and feedbacks affecting the trajectories of coupled system behavior. Human interactions with natural hazards, such as volcanoes, earthquakes, tsunamis, major storms, floods, droughts, forest fires, tornadoes, soil erosion, mudslides, sink holes, avalanches, lightning strikes, among many others, often involve such couplings. Indeed, economists who specialize in catastrophes have long defined natural hazards as comprising a process of joint production (Russell 1970, Zeckhauser 1996). Without a human presence, a natural hazard cannot impose impacts that can be measured or felt in socio-economic or other terms. In some instances, humans may contribute to the occurrence of a hazard or influence its frequency, scale, intensity, or duration. Even when humans do not cause or exacerbate a hazard, they may suffer its adverse effects, and there may be actions that can be taken to mitigate them. This chapter focuses on a specific type of hazard-human coupling relating to coastal blooms of toxic marine algae, often referred to as harmful algal blooms (HABs). Specifically, we draw examples primari-ly from human interactions with blooms of the toxic dinoflagellate Karenia brevis from the Gulf of Mexico. Humans interact with marine algae in many ways, and the great majority of such interactions are pos-itive and beneficial. Because primary productivity drives oceanic ecosystems from the bottom up, algae provide a critical, but mostly unquantified and often unappreciated, ecosystem service to humans. Even toxic dinoflagellates such as K. brevis may serve a beneficial ecological role in terms of primary productivity and nutrient cycling (Vargo et al. 1987).

Description: This research was sponsored by the US National Science Foundation under NSF Grant No. 1009106 (CNH).

Keywords: Coupled nature-human systems ; HAB ; Harmful algal bloom ; CHANS

Repository Name: Woods Hole Open Access Server

Type: Book chapter , Preprint

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