Your search keyword '"Unsworth, RKF"' showing total 41 results

1. Blue Carbon Storage Capacity of Temperate Eelgrass (Zostera marina) Meadows

Author

Röhr, ME, Holmer, M, Baum, JK, Björk, M, Chin, D, Chalifour, L, Cimon, S, Cusson, M, Dahl, M, Deyanova, D, Duffy, JE, Eklöf, JS, Geyer, JK, Griffin, JN, Gullström, M, Hereu, CM, Hori, M, Hovel, KA, Hughes, AR, Jorgensen, P, Kiriakopolos, S, Moksnes, PO, Nakaoka, M, O'Connor, MI, Peterson, B, Reiss, K, Reynolds, PL, Rossi, F, Ruesink, J, Santos, R, Stachowicz, JJ, Tomas, F, Lee, KS, Unsworth, RKF, and Boström, C

Subjects

blue carbon, seagrass, Z, marina, Meteorology & Atmospheric Sciences, Atmospheric Sciences, Geochemistry, Oceanography

Abstract

Despite the importance of coastal ecosystems for the global carbon budgets, knowledge of their carbon storage capacity and the factors driving variability in storage capacity is still limited. Here we provide an estimate on the magnitude and variability of carbon stocks within a widely distributed marine foundation species throughout its distribution area in temperate Northern Hemisphere. We sampled 54 eelgrass (Zostera marina) meadows, spread across eight ocean margins and 36° of latitude, to determine abiotic and biotic factors influencing organic carbon (Corg) stocks in Zostera marina sediments. The Corg stocks (integrated over 25-cm depth) showed a large variability and ranged from 318 to 26,523 g C/m2 with an average of 2,721 g C/m2. The projected Corg stocks obtained by extrapolating over the top 1 m of sediment ranged between 23.1 and 351.7 Mg C/ha, which is in line with estimates for other seagrasses and other blue carbon ecosystems. Most of the variation in Corg stocks was explained by five environmental variables (sediment mud content, dry density and degree of sorting, and salinity and water depth), while plant attributes such as biomass and shoot density were less important to Corg stocks. Carbon isotopic signatures indicated that at most sites

Published

2018

2. Toward a coordinated global observing system for marine macrophytes

Author

Duffy, JE, Benedetti-Cecchi, L, Trinanes, JA, Muller-Karger, FE, Ambo-Rappe, R, Boström, C., Buschmann, AH, Byrnes, Jarrett E., Coles, RG, Creed, J, Cullen-Unsworth, L, Diaz-Pulido, G, Duarte, CM, Edgar, GJ, Fortes, MD, Goni, GJ, Hu, C, Huang, X, Hurd, CL, Konar, Brenda, Krause-Jensen, Dorte, Krumhansl, Kira A., McReadie, PI, Marsh, H, McKenzie, LJ, Mieszkowska, Nova, Miloslavich, Patricia, Montes, Enrique, Nakaoka, M, Norderhaug, Kjell Magnus, Nordlund, LM, Orth, RJ, Prathep, A, Putman, NF, Samper-Villarreal, J, Serrao, EA, Short, F, Pinto, Isabel Sousa, Steinberg, PD, Stuart-Smith, R, Unsworth, RKF, van Keulen, M, Van Tussenbroek, BI, Wang, M, Waycott, M, Weatherdon, LW, Wernberg, Thomas, and Yaakub, SM

Abstract

In coastal waters around the world, the dominant primary producers are benthic macrophytes, including seagrasses and macroalgae, that provide habitat structure and food for diverse and abundant biological communities and drive ecosystem processes. Seagrass meadows and macroalgal forests play key roles for coastal societies, contributing to fishery yields, storm protection, biogeochemical cycling and storage, and important cultural values. These socio-economically valuable services are threatened worldwide by human activities, with substantial areas of seagrass and macroalgal forests lost over the last half-century. Tracking the status and trends in marine macrophyte cover and quality is an emerging priority for ocean and coastal management, but doing so has been challenged by limited coordination across the numerous efforts to monitor macrophytes, which vary widely in goals, methodologies, scales, capacity, governance approaches, and data availability. Here, we present a consensus assessment and recommendations on the current state of and opportunities for advancing global marine macrophyte observations, integrating contributions from a community of researchers with broad geographic and disciplinary expertise. With the increasing scale of human impacts, the time is ripe to harmonize marine macrophyte observations by building on existing networks and identifying a core set of common metrics and approaches in sampling design, field measurements, governance, capacity building, and data management. We recommend a tiered observation system, with improvement of remote sensing and remote underwater imaging to expand capacity to capture broad-scale extent at intervals of several years, coordinated with stratified in situ sampling annually to characterize the key variables of cover and taxonomic or functional group composition, and to provide ground-truth. A robust networked system of macrophyte observations will be facilitated by establishing best practices, including standard protocols, documentation, and sharing of resources at all stages of workflow, and secure archiving of open-access data. Because such a network is necessarily distributed, sustaining it depends on close engagement of local stakeholders and focusing on building and long-term maintenance of local capacity, particularly in the developing world. Realizing these recommendations will produce more effective, efficient, and responsive observing, a more accurate global picture of change in vegetated coastal systems, and stronger international capacity for sustaining observations.

Published

2019

3. Habitat Configuration Alters Herbivory across the Tropical Seascape

Author

Swindells, KL, Murdoch, RJ, Bazen, WD, Harman, NW, Unsworth, RKF, Swindells, KL, Murdoch, RJ, Bazen, WD, Harman, NW, and Unsworth, RKF

Abstract

There exists increasing evidence that top-down ecological processes such as herbivory are key in controlling marine ecosystems and their community structure. Herbivory has the potential to be altered by numerous environmental and ecological factors that operate at a variety of temporal and spatial scales, one such spatial factor is the influence of the marine landscape. We know little about how ecological processes such as herbivory change throughout the marine landscape and how the effects of these processes cascade. This is because most landscape scale studies observe species richness and abundance patterns. In terrestrial systems the landscape is well documented to influence ecological processes, but empirical evidence of this is limited in marine systems. In tropical seagrass meadows direct herbivory by parrotfish can be readily observed due to the clear hemispherical bite marks they leave on the seagrass. As with herbivory in other systems, this leaf consumption is thought to assist with leaf turnover, positively influencing leaf growth. Changes in its rate and extent are therefore likely to influence the characteristics of the plant. The faunal communities of seagrass meadows alter with respect to changes in the landscape, particularly with respect to connectivity to adjacent habitats. It might therefore be expected that a key ecological process such as herbivory will change with respect to habitat configuration and have cascading impacts upon the status of the seagrass. In the present study we examined indirect evidence of parrotfish grazing throughout the marine landscape and assessed this relative to plant condition. Seagrasses in locations of close proximity to mangroves were found to have double the amount of parrotfish grazing than sites away from mangroves. Evidence of herbivory was also found to be strongly and significantly negatively correlated to the abundance of plant attached epicover. The decreased epicover in the presence of elevated herbivory s

Published

2017

4. Solar radiation and tidal exposure as environmental drivers of enhalus acoroides dominated seagrass meadows

Author

Unsworth, RKF, Rasheed, MA, Chartrand, KM, Roelofs, AJ, Unsworth, RKF, Rasheed, MA, Chartrand, KM, and Roelofs, AJ

Abstract

There is strong evidence of a global long-term decline in seagrass meadows that is widely attributed to anthropogenic activity. Yet in many regions, attributing these changes to actual activities is difficult, as there exists limited understanding of the natural processes that can influence these valuable ecosystem service providers. Being able to separate natural from anthropogenic causes of seagrass change is important for developing strategies that effectively mitigate and manage anthropogenic impacts on seagrass, and promote coastal ecosystems resilient to future environmental change. The present study investigated the influence of environmental and climate related factors on seagrass biomass in a large ≈250 ha meadow in tropical north east Australia. Annual monitoring of the intertidal Enhalus acoroides (L.f.) Royle seagrass meadow over eleven years revealed a declining trend in above-ground biomass (54% significant overall reduction from 2000 to 2010). Partial Least Squares Regression found this reduction to be significantly and negatively correlated with tidal exposure, and significantly and negatively correlated with the amount of solar radiation. This study documents how natural long-term tidal variability can influence long-term seagrass dynamics. Exposure to desiccation, high UV, and daytime temperature regimes are discussed as the likely mechanisms for the action of these factors in causing this decline. The results emphasise the importance of understanding and assessing natural environmentally-driven change when interpreting the results of seagrass monitoring programs. © 2012 Unsworth et al.

Published

2012

5. Movements of Diadromous Fish in Large Unregulated Tropical Rivers Inferred from Geochemical Tracers

Author

Unsworth, RKF, Walther, BD, Dempster, T, Letnic, M, McCulloch, MT, Unsworth, RKF, Walther, BD, Dempster, T, Letnic, M, and McCulloch, MT

Abstract

Patterns of migration and habitat use in diadromous fishes can be highly variable among individuals. Most investigations into diadromous movement patterns have been restricted to populations in regulated rivers, and little information exists for those in unregulated catchments. We quantified movements of migratory barramundi Lates calcarifer (Bloch) in two large unregulated rivers in northern Australia using both elemental (Sr/Ba) and isotope ((87)Sr/(86)Sr) ratios in aragonitic ear stones, or otoliths. Chemical life history profiles indicated significant individual variation in habitat use, particularly among chemically distinct freshwater habitats within a catchment. A global zoning algorithm was used to quantify distinct changes in chemical signatures across profiles. This algorithm identified between 2 and 6 distinct chemical habitats in individual profiles, indicating variable movement among habitats. Profiles of (87)Sr/(86)Sr ratios were notably distinct among individuals, with highly radiogenic values recorded in some otoliths. This variation suggested that fish made full use of habitats across the entire catchment basin. Our results show that unrestricted movement among freshwater habitats is an important component of diadromous life histories for populations in unregulated systems.

Published

2011

6. Habitat Associations of Juvenile Fish at Ningaloo Reef, Western Australia: The Importance of Coral and Algae

Author

Unsworth, RKF, Wilson, SK, Depczynski, M, Fisher, R, Holmes, TH, O'Leary, RA, Tinkler, Paul, Unsworth, RKF, Wilson, SK, Depczynski, M, Fisher, R, Holmes, TH, O'Leary, RA, and Tinkler, Paul

Published

2010

7. Long-term climate-associated dynamics of a tropical seagrass meadow: implications for the future

Author

Rasheed, MA, primary and Unsworth, RKF, additional

Published

2011

8. Spatio-temporal coral disease dynamics in the Wakatobi Marine National Park, South-East Sulawesi, Indonesia

Author

Haapkylä, J, primary, Unsworth, RKF, additional, Seymour, AS, additional, Melbourne-Thomas, J, additional, Flavell, M, additional, Willis, BL, additional, and Smith, DJ, additional

Published

2009

9. Structuring of Indo-Pacific fish assemblages along the mangrove–seagrass continuum

Author

Unsworth, RKF, primary, Garrard, SL, additional, De León, PS, additional, Cullen, LC, additional, Smith, DJ, additional, Sloman, KA, additional, and Bell, JJ, additional

Published

2009

10. High connectivity of Indo-Pacific seagrass fish assemblages with mangrove and coral reef habitats

Author

Unsworth, RKF, primary, De León, PS, additional, Garrard, SL, additional, Jompa, J, additional, Smith, DJ, additional, and Bell, JJ, additional

Published

2008

11. One hundred priority questions for landscape restoration in Europe

Author

Nancy Ockendon, Charles Burrell, William M. Adams, Beatriz Duguy, Jonathan Spencer, Sue Everett, Alexandros A. Karamanlidis, Steve Carver, Jordi Cortina, Francine M. R. Hughes, Stuart Warrington, Luigi Boitani, Christopher J. Sandom, Roger Mitchell, Michael R. W. Rands, Cristina Branquinho, Toby Aykroyd, Chris McOwen, David H.L. Thomas, Lera Miles, Duncan J. Halley, Robert J. Fuller, Cy Griffin, Aletta Bonn, Humphrey Q. P. Crick, William J. Sutherland, Paul Hotham, Anastasiya Timoshyna, David W. Gibbons, Bart Fokkens, Ramaz Gokhelashvili, Jeremy Roberts, Boris Barov, Richard K. F. Unsworth, Chris D. Thomas, Eleanor R. Tew, Erica ten Broeke, Michael Brombacher, Universidad de Alicante. Departamento de Ecología, Universidad de Alicante. Instituto Multidisciplinar para el Estudio del Medio 'Ramón Margalef', Gestión de Ecosistemas y de la Biodiversidad (GEB), Barov, B [0000-0001-6916-2137], Bonn, A [0000-0002-8345-4600], Branquinho, C [0000-0001-8294-7924], Karamanlidis, AA [0000-0003-0943-1619], McOwen, CJ [0000-0003-4840-2167], Miles, L [0000-0003-0377-5904], Sandom, CJ [0000-0003-2294-1648], Unsworth, RKF [0000-0003-0036-9724], and Apollo - University of Cambridge Repository

Subjects

0106 biological sciences, Priority setting, Process (engineering), Corporate governance, Landscape-scale, Biodiversity, 010501 environmental sciences, Ecología, 010603 evolutionary biology, 01 natural sciences, Natural processes, Ecosystem services, Political science, Rewilding, Restoration ecology, Environmental planning, Ecological restoration, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Nature and Landscape Conservation

Abstract

We present the results of a process to attempt to identify 100 questions that, if answered, would make a substantial difference to terrestrial and marine landscape restoration in Europe. Representatives from a wide range of European governmental and non-governmental conservation organisations, universities, independent ecologists and land managers compiled 677 questions relating to all aspects of European landscape restoration for nature and people. The questions were shortlisted by an email vote, followed by a two-day workshop, to produce the final list of 100 questions. Many of the final questions evolved through a process of modification and combination as the workshop progressed. The questions are divided into eight sections: conservation of biodiversity; connectivity, migration and translocations; delivering and evaluating restoration; natural processes; ecosystem services; social and cultural aspects of restoration; policy and governance; and economics. We anticipate that these questions will help identify new directions for researchers and policy-makers and assist funders and programme managers in allocating funds and planning projects, resulting in improved understanding and implementation of landscape-scale ecological restoration in Europe. This exercise was funded by Arcadia (as is WJS), a charitable fund of Lisbet Rausing and Peter Baldwin, through the Endangered Landscapes Programme.

Published

2018

12. Rapid seagrass meadow expansion in an Indian Ocean bright spot.

Author

Floyd M, East HK, Traganos D, Musthag A, Guest J, Hashim AS, Evans V, Helber S, Unsworth RKF, and Suggitt AJ

Subjects

Indian Ocean, Ecosystem, Environmental Monitoring methods, Indian Ocean Islands, Conservation of Natural Resources

Abstract

The areal extent of seagrass meadows is in rapid global decline, yet they provide highly valuable societal benefits. However, their conservation is hindered by data gaps on current and historic spatial extents. Here, we outline an approach for national-scale seagrass mapping and monitoring using an open-source platform (Google Earth Engine) and freely available satellite data (Landsat, Sentinel-2) that can be readily applied in other countries globally. Specifically, we map contemporary (2021) and historical (2000-2021; n = 10 maps) shallow water seagrass extent across the Maldives. We found contemporary Maldivian seagrass extent was ~ 105 km 2 (overall accuracy = 82.04%) and, notably, that seagrass area increased threefold between 2000 and 2021 (linear model, + 4.6 km 2  year -1 , r 2  = 0.93, p < 0.001). There was a strongly significant association between seagrass and anthropogenic activity (p < 0.001) that we hypothesize to be driven by nutrient loading and/or altered sediment dynamics (from large scale land reclamation), which would represent a beneficial anthropogenic influence on Maldivian seagrass meadows. National-scale tropical seagrass expansion is unique against the backdrop of global seagrass decline and we therefore highlight the Maldives as a rare global seagrass 'bright spot' highly worthy of increased attention across scientific, commercial, and conservation policy contexts., (© 2024. The Author(s).)

Published

2024

13. Map and protect seagrass for biodiversity.

Author

Unsworth RKF and Jones BLH

Subjects

Geographic Mapping, Biodiversity, Conservation of Natural Resources, Seaweed

Published

2024

14. Nutrient additions to seagrass seed planting improve seedling emergence and growth.

Author

Unsworth RKF, Rees SC, Bertelli CM, Esteban NE, Furness EJ, and Walter B

Abstract

To maximize the opportunities of seagrass as a nature-based solution requires restoration to occur on a large scale. New methods and knowledge are required that can solve ecological bottlenecks, improving its reliability and effectiveness. Although there is increasing interest in the use of seeds for seagrass restoration there exists a limited understanding of how best to plant them with the most knowledge on germination and seedling emergence coming from laboratory studies. Here we present the results of a novel field study on the emergence success of seeds of the seagrass Zostera marina when subjected to varied planting treatments. Seeds were planted into hessian bags according to a factorial design of three treatments (sediment type, detritus addition, and nutrient addition). By adding nutrients to natural sediment, the present study provides some evidence of seagrass shoot emergence and maximum shoot length doubling. The present study provides evidence that even in heavily nutrient-rich environments, seagrass sediments may require additional nutrients to improve seedling emergence and growth. It also highlights the highly variable nature of planting seagrass seeds in shallow coastal environments. Critically this study provides increasing levels of evidence that small subtleties in the method can have large consequences for seagrass restoration and that for restoration to scale to levels that are relevant for nature-based solutions there remain many unknowns that require consideration., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Unsworth, Rees, Bertelli, Esteban, Furness and Walter.)

Published

2022

15. The planetary role of seagrass conservation.

Author

Unsworth RKF, Cullen-Unsworth LC, Jones BLH, and Lilley RJ

Subjects

Adaptation, Physiological, Climate, Greenhouse Gases, Alismatales, Biodiversity, Conservation of Natural Resources

Abstract

Seagrasses are remarkable plants that have adapted to live in a marine environment. They form extensive meadows found globally that bioengineer their local environments and preserve the coastal seascape. With the increasing realization of the planetary emergency that we face, there is growing interest in using seagrasses as a nature-based solution for greenhouse gas mitigation. However, seagrass sensitivity to stressors is acute, and in many places, the risk of loss and degradation persists. If the ecological state of seagrasses remains compromised, then their ability to contribute to nature-based solutions for the climate emergency and biodiversity crisis remains in doubt. We examine the major ecological role that seagrasses play and how rethinking their conservation is critical to understanding their part in fighting our planetary emergency.

Published

2022

16. Anthropogenic pressures and life history predict trajectories of seagrass meadow extent at a global scale.

Author

Turschwell MP, Connolly RM, Dunic JC, Sievers M, Buelow CA, Pearson RM, Tulloch VJD, Côté IM, Unsworth RKF, Collier CJ, and Brown CJ

Subjects

Geography, Humans, Oceans and Seas, Anthropogenic Effects, Life History Traits, Models, Biological, Poaceae, Wetlands

Abstract

Seagrass meadows are threatened by multiple pressures, jeopardizing the many benefits they provide to humanity and biodiversity, including climate regulation and food provision through fisheries production. Conservation of seagrass requires identification of the main pressures contributing to loss and the regions most at risk of ongoing loss. Here, we model trajectories of seagrass change at the global scale and show they are related to multiple anthropogenic pressures but that trajectories vary widely with seagrass life-history strategies. Rapidly declining trajectories of seagrass meadow extent (>25% loss from 2000 to 2010) were most strongly associated with high pressures from destructive demersal fishing and poor water quality. Conversely, seagrass meadow extent was more likely to be increasing when these two pressures were low. Meadows dominated by seagrasses with persistent life-history strategies tended to have slowly changing or stable trajectories, while those with opportunistic species were more variable, with a higher probability of either rapidly declining or rapidly increasing. Global predictions of regions most at risk for decline show high-risk areas in Europe, North America, Japan, and southeast Asia, including places where comprehensive long-term monitoring data are lacking. Our results highlight where seagrass loss may be occurring unnoticed and where urgent conservation interventions are required to reverse loss and sustain their essential services., Competing Interests: The authors declare no competing interest., (Copyright © 2021 the Author(s). Published by PNAS.)

Published

2021

17. Seagrass ecosystem contributions to people's quality of life in the Pacific Island Countries and Territories.

Author

McKenzie LJ, Yoshida RL, Aini JW, Andréfouet S, Colin PL, Cullen-Unsworth LC, Hughes AT, Payri CE, Rota M, Shaw C, Tsuda RT, Vuki VC, and Unsworth RKF

Subjects

Animals, Humans, Melanesia, Pacific Islands, Quality of Life, Ecosystem, Hydrozoa

Abstract

Seagrass ecosystems provide critical contributions (goods and perceived benefits or detriments) for the livelihoods and wellbeing of Pacific Islander peoples. Through in-depth examination of the contributions provided by seagrass ecosystems across the Pacific Island Countries and Territories (PICTs), we find a greater quantity in the Near Oceania (New Guinea, the Bismarck Archipelago and the Solomon Islands) and western Micronesian (Palau and Northern Marianas) regions; indicating a stronger coupling between human society and seagrass ecosystems. We also find many non-material contributions historically have been overlooked and under-appreciated by decision-makers. Closer cultural connections likely motivate guardianship of seagrass ecosystems by Pacific communities to mitigate local anthropogenic pressures. Regional comparisons also shed light on general and specific aspects of the importance of seagrass ecosystems to Pacific Islanders, which are critical for forming evidence-based policy and management to ensure the long-term resilience of seagrass ecosystems and the contributions they provide., (Copyright © 2021 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2021

18. Seagrass ecosystems of the Pacific Island Countries and Territories: A global bright spot.

Author

McKenzie LJ, Yoshida RL, Aini JW, Andréfouet S, Colin PL, Cullen-Unsworth LC, Hughes AT, Payri CE, Rota M, Shaw C, Skelton PA, Tsuda RT, Vuki VC, and Unsworth RKF

Subjects

Melanesia, Micronesia, Pacific Islands, Papua New Guinea, Polynesia, Ecosystem

Abstract

Seagrass ecosystems exist throughout Pacific Island Countries and Territories (PICTs). Despite this area covering nearly 8% of the global ocean, information on seagrass distribution, biogeography, and status remains largely absent from the scientific literature. We confirm 16 seagrass species occur across 17 of the 22 PICTs with the highest number in Melanesia, followed by Micronesia and Polynesia respectively. The greatest diversity of seagrass occurs in Papua New Guinea (13 species), and attenuates eastward across the Pacific to two species in French Polynesia. We conservatively estimate seagrass extent to be 1446.2 km 2 , with the greatest extent (84%) in Melanesia. We find seagrass condition in 65% of PICTs increasing or displaying no discernible trend since records began. Marine conservation across the region overwhelmingly focuses on coral reefs, with seagrass ecosystems marginalised in conservation legislation and policy. Traditional knowledge is playing a greater role in managing local seagrass resources and these approaches are having greater success than contemporary conservation approaches. In a world where the future of seagrass ecosystems is looking progressively dire, the Pacific Islands appears as a global bright spot, where pressures remain relatively low and seagrass more resilient., (Copyright © 2021 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2021

19. Unravelling the Spatial and Temporal Plasticity of Eelgrass Meadows.

Author

Bertelli CM, Bull JC, Cullen-Unsworth LC, and Unsworth RKF

Abstract

The phenotypic plasticity of seagrasses enables them to adapt to changes in environmental conditions and withstand or recover from disturbance. This plasticity was demonstrated in the large variation recorded throughout a suite of bioindicators measured within Zostera marina meadows around Wales and SW England, United Kingdom. Short-term spatial data were analysed alongside long-term monitoring data to determine which bioindicators best described the status of eelgrass meadows subjected to a range of environmental and anthropogenic drivers. Shoot density, leaf length, leaf nutrients (C:N ratio, %N, %P) including stable isotope of δ 13 C and δ 15 N provided insight into the longer-term status of the meadows studied and a good indication of the causes of long-term decline. Meadows ranged from those in the Isles of Scilly with little evidence of impact to those in Littlewick in Milford Haven, Wales that showed the highest levels of impacts of all sites. Bioindicators at Littlewick showed clear warning signs of nutrient loading reflected in the long-term decline in shoot density, and prevalence of wasting disease. This study highlights the need for continuous consistent monitoring and the benefits of using extra tools in the form of shoot nutrient analysis to determine causes of decline., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Bertelli, Bull, Cullen-Unsworth and Unsworth.)

Published

2021

20. Historical Analysis Exposes Catastrophic Seagrass Loss for the United Kingdom.

Author

Green AE, Unsworth RKF, Chadwick MA, and Jones PJS

Abstract

The spatial extent of seagrass is poorly mapped, and knowledge of historical loss is limited. Here, we collated empirical and qualitative data using systematic review methods to provide unique analysis on seagrass occurrence and loss in the United Kingdom. We document 8,493 ha of recently mapped seagrass in the United Kingdom since 1998. This equates to an estimated 0.9 Mt of carbon, which, in the current carbon market represents about £22 million. Using simple models to estimate seagrass declines triangulated against habitat suitability models, we provide evidence of catastrophic seagrass loss; at least 44% of United Kingdom's seagrasses have been lost since 1936, 39% since the 1980's. However, losses over longer time spans may be as high as 92%. Based on these estimates, historical seagrass meadows could have stored 11.5 Mt of carbon and supported approximately 400 million fish. Our results demonstrate the vast scale of losses and highlight the opportunities to restore seagrass to support a range of ecosystems services., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Green, Unsworth, Chadwick and Jones.)

Published

2021

21. Climate drives the geography of marine consumption by changing predator communities.

Author

Whalen MA, Whippo RDB, Stachowicz JJ, York PH, Aiello E, Alcoverro T, Altieri AH, Benedetti-Cecchi L, Bertolini C, Bresch M, Bulleri F, Carnell PE, Cimon S, Connolly RM, Cusson M, Diskin MS, D'Souza E, Flores AAV, Fodrie FJ, Galloway AWE, Gaskins LC, Graham OJ, Hanley TC, Henderson CJ, Hereu CM, Hessing-Lewis M, Hovel KA, Hughes BB, Hughes AR, Hultgren KM, Jänes H, Janiak DS, Johnston LN, Jorgensen P, Kelaher BP, Kruschel C, Lanham BS, Lee KS, Lefcheck JS, Lozano-Álvarez E, Macreadie PI, Monteith ZL, O'Connor NE, Olds AD, O'Leary JK, Patrick CJ, Pino O, Poore AGB, Rasheed MA, Raymond WW, Reiss K, Rhoades OK, Robinson MT, Ross PG, Rossi F, Schlacher TA, Seemann J, Silliman BR, Smee DL, Thiel M, Unsworth RKF, van Tussenbroek BI, Vergés A, Yeager ME, Yednock BK, Ziegler SL, and Duffy JE

Subjects

Alismatales, Animals, Biomass, Female, Fishes, Geography, Global Warming, Humans, Male, Biodiversity, Climate, Fisheries, Food Chain

Abstract

The global distribution of primary production and consumption by humans (fisheries) is well-documented, but we have no map linking the central ecological process of consumption within food webs to temperature and other ecological drivers. Using standardized assays that span 105° of latitude on four continents, we show that rates of bait consumption by generalist predators in shallow marine ecosystems are tightly linked to both temperature and the composition of consumer assemblages. Unexpectedly, rates of consumption peaked at midlatitudes (25 to 35°) in both Northern and Southern Hemispheres across both seagrass and unvegetated sediment habitats. This pattern contrasts with terrestrial systems, where biotic interactions reportedly weaken away from the equator, but it parallels an emerging pattern of a subtropical peak in marine biodiversity. The higher consumption at midlatitudes was closely related to the type of consumers present, which explained rates of consumption better than consumer density, biomass, species diversity, or habitat. Indeed, the apparent effect of temperature on consumption was mostly driven by temperature-associated turnover in consumer community composition. Our findings reinforce the key influence of climate warming on altered species composition and highlight its implications for the functioning of Earth's ecosystems., Competing Interests: The authors declare no competing interest.

Published

2020

22. Artificial Intelligence Meets Citizen Science to Supercharge Ecological Monitoring.

Author

McClure EC, Sievers M, Brown CJ, Buelow CA, Ditria EM, Hayes MA, Pearson RM, Tulloch VJD, Unsworth RKF, and Connolly RM

Abstract

The development and uptake of citizen science and artificial intelligence (AI) techniques for ecological monitoring is increasing rapidly. Citizen science and AI allow scientists to create and process larger volumes of data than possible with conventional methods. However, managers of large ecological monitoring projects have little guidance on whether citizen science, AI, or both, best suit their resource capacity and objectives. To highlight the benefits of integrating the two techniques and guide future implementation by managers, we explore the opportunities, challenges, and complementarities of using citizen science and AI for ecological monitoring. We identify project attributes to consider when implementing these techniques and suggest that financial resources, engagement, participant training, technical expertise, and subject charisma and identification are important project considerations. Ultimately, we highlight that integration can supercharge outcomes for ecological monitoring, enhancing cost-efficiency, accuracy, and multi-sector engagement., (© 2020 The Authors.)

Published

2020

23. The influence of bait on remote underwater video observations in shallow-water coastal environments associated with the North-Eastern Atlantic.

Author

Jones RE, Griffin RA, Januchowski-Hartley SR, and Unsworth RKF

Abstract

The use of baited remote underwater video (BRUV) for examining and monitoring marine biodiversity in temperate marine environments is rapidly growing, however many aspects of their effectiveness relies on assumptions based on studies from the Southern Hemisphere. The addition of bait to underwater camera systems acts as a stimulus for attracting individuals towards the camera field of view, however knowledge of the effectiveness of different bait types in northern temperate climbs is limited, particularly in dynamic coastal environments. Studies in the Southern Hemisphere indicate that oily baits are most effective whilst bait volume and weight do not impact BRUV effectiveness to any great degree. The present study assesses the influence of four bait types (mackerel, squid, crab and no bait (control)) on the relative abundance, taxonomic diversity and faunal assemblage composition at two independent locations within the North-Eastern Atlantic region; Swansea Bay, UK and Ria Formosa Lagoon, Portugal. Two different bait quantities (50 g and 350 g) were further trialled in Swansea Bay. Overall, patterns showed that baited deployments recorded statistically higher values of relative abundance and taxonomic diversity when compared to un-baited deployments in Swansea Bay but not in Ria Formosa Lagoon. No statistical evidence singled out one bait type as best performing for attracting higher abundances and taxonomic diversity in both locations. Faunal assemblage composition was however found to differ with bait type in Swansea Bay, with mackerel and squid attracting higher abundances of scavenging species compared to the crab and control treatments. With the exception of squid, bait quantity had minimal influence on bait attractiveness. It is recommended for consistency that a minimum of 50 g of cheap, oily fish such as mackerel is used as bait for BRUV deployments in shallow dynamic coastal environments in the North-Eastern Atlantic Region., Competing Interests: Ross A. Griffin is a Technical Director of the marine consultancy Ocean Ecology Limited., (© 2020 Jones et al.)

Published

2020

24. Mimicry of emergent traits amplifies coastal restoration success.

Author

Temmink RJM, Christianen MJA, Fivash GS, Angelini C, Boström C, Didderen K, Engel SM, Esteban N, Gaeckle JL, Gagnon K, Govers LL, Infantes E, van Katwijk MM, Kipson S, Lamers LPM, Lengkeek W, Silliman BR, van Tussenbroek BI, Unsworth RKF, Yaakub SM, Bouma TJ, and van der Heide T

Subjects

Biodegradable Plastics, Biomimetics methods, Ecology methods, Environmental Restoration and Remediation instrumentation, Florida, Netherlands, Seawater, Sweden, Tropical Climate, West Indies, Adaptation, Physiological, Environmental Restoration and Remediation methods, Hydrocharitaceae physiology, Wetlands, Zosteraceae physiology

Abstract

Restoration is becoming a vital tool to counteract coastal ecosystem degradation. Modifying transplant designs of habitat-forming organisms from dispersed to clumped can amplify coastal restoration yields as it generates self-facilitation from emergent traits, i.e. traits not expressed by individuals or small clones, but that emerge in clumped individuals or large clones. Here, we advance restoration science by mimicking key emergent traits that locally suppress physical stress using biodegradable establishment structures. Experiments across (sub)tropical and temperate seagrass and salt marsh systems demonstrate greatly enhanced yields when individuals are transplanted within structures mimicking emergent traits that suppress waves or sediment mobility. Specifically, belowground mimics of dense root mats most facilitate seagrasses via sediment stabilization, while mimics of aboveground plant structures most facilitate marsh grasses by reducing stem movement. Mimicking key emergent traits may allow upscaling of restoration in many ecosystems that depend on self-facilitation for persistence, by constraining biological material requirements and implementation costs.

Published

2020

25. Social-ecological drivers and dynamics of seagrass gleaning fisheries.

Author

Furkon, Nessa N, Ambo-Rappe R, Cullen-Unsworth LC, and Unsworth RKF

Subjects

Animals, Child, Conservation of Natural Resources, Humans, Invertebrates, Ecosystem, Fisheries

Abstract

Invertebrate gleaning (walking) fisheries are common within intertidal seagrass meadows globally, contributing to the food supply of hundreds of millions of people, but understanding of these fisheries and their ecological drivers are extremely limited. The present study provides a unique analysis of these fisheries using a combined social and ecological approach. Catches contained 34 species and were dominated by Bivalves, Urchins and Gastropods. CPUE in all sites varied from 0.05 to 3 kg gleaner -1 hr -1 , respectively, with the majority of fishers being women and children. Landings were of major significance for local food supply and livelihoods at all sites. Local ecological knowledge suggests seagrass meadows are declining in line with other regional trends. Increasing seagrass density significantly and positively correlated with CPUE of the invertebrate gleaning (r = 0.830) highlighting the importance of conserving these threatened habitats. Understanding the complexities of these fisheries, their supporting habitats and their sustainability is important for the support of sustainable coastal livelihoods.

Published

2020

26. The perverse fisheries consequences of mosquito net malaria prophylaxis in East Africa.

Author

Jones BL and Unsworth RKF

Subjects

Adolescent, Africa, Eastern, Ecosystem, Fisheries, Humans, Mozambique, Malaria, Mosquito Nets

Abstract

Malaria is a serious global health issue, with around 200 million cases per year. As such, great effort has been put into the mass distribution of bed nets as a means of prophylaxis within Africa. Distributed mosquito nets are intended to be used for malaria protection, yet increasing evidence suggests that fishing is a primary use for these nets, providing fresh concerns for already stressed coastal ecosystems. While research documents the scale of mosquito net fisheries globally, no quantitative analysis of their landings exists. The effects of these fisheries on the wider ecosystem assemblages have not previously been examined. In this study, we present the first detailed analysis of the sustainability of these fisheries by examining the diversity, age class, trophic structure and magnitude of biomass removal. Dragnet landings, one of two gear types in which mosquito nets can be utilised, were recorded across ten sites in northern Mozambique where the use of Mosquito nets for fishing is common. Our results indicate a substantial removal of juveniles from coastal seagrass meadows, many of which are commercially important in the region or play important ecological roles. We conclude that the use of mosquito nets for fishing may contribute to food insecurity, greater poverty and the loss of ecosystem functioning.

Published

2020

27. Global challenges for seagrass conservation.

Author

Unsworth RKF, McKenzie LJ, Collier CJ, Cullen-Unsworth LC, Duarte CM, Eklöf JS, Jarvis JC, Jones BL, and Nordlund LM

Subjects

Biodiversity, Climate Change, Alismatales, Ecosystem

Abstract

Seagrasses, flowering marine plants that form underwater meadows, play a significant global role in supporting food security, mitigating climate change and supporting biodiversity. Although progress is being made to conserve seagrass meadows in select areas, most meadows remain under significant pressure resulting in a decline in meadow condition and loss of function. Effective management strategies need to be implemented to reverse seagrass loss and enhance their fundamental role in coastal ocean habitats. Here we propose that seagrass meadows globally face a series of significant common challenges that must be addressed from a multifaceted and interdisciplinary perspective in order to achieve global conservation of seagrass meadows. The six main global challenges to seagrass conservation are (1) a lack of awareness of what seagrasses are and a limited societal recognition of the importance of seagrasses in coastal systems; (2) the status of many seagrass meadows are unknown, and up-to-date information on status and condition is essential; (3) understanding threatening activities at local scales is required to target management actions accordingly; (4) expanding our understanding of interactions between the socio-economic and ecological elements of seagrass systems is essential to balance the needs of people and the planet; (5) seagrass research should be expanded to generate scientific inquiries that support conservation actions; (6) increased understanding of the linkages between seagrass and climate change is required to adapt conservation accordingly. We also explicitly outline a series of proposed policy actions that will enable the scientific and conservation community to rise to these challenges. We urge the seagrass conservation community to engage stakeholders from local resource users to international policy-makers to address the challenges outlined here, in order to secure the future of the world's seagrass ecosystems and maintain the vital services which they supply.

Published

2019

28. Artisanal fish fences pose broad and unexpected threats to the tropical coastal seascape.

Author

Exton DA, Ahmadia GN, Cullen-Unsworth LC, Jompa J, May D, Rice J, Simonin PW, Unsworth RKF, and Smith DJ

Abstract

Gear restrictions are an important management tool in small-scale tropical fisheries, improving sustainability and building resilience to climate change. Yet to identify the management challenges and complete footprint of individual gears, a broader systems approach is required that integrates ecological, economic and social sciences. Here we apply this approach to artisanal fish fences, intensively used across three oceans, to identify a previously underrecognized gear requiring urgent management attention. A longitudinal case study shows increased effort matched with large declines in catch success and corresponding reef fish abundance. We find fish fences to disrupt vital ecological connectivity, exploit > 500 species with high juvenile removal, and directly damage seagrass ecosystems with cascading impacts on connected coral reefs and mangroves. As semi-permanent structures in otherwise open-access fisheries, they create social conflict by assuming unofficial and unregulated property rights, while their unique high-investment-low-effort nature removes traditional economic and social barriers to overfishing.

Published

2019

29. A changing climate for seagrass conservation?

Author

Unsworth RKF, McKenzie LJ, Nordlund LM, and Cullen-Unsworth LC

Subjects

Alismatales, Climate Change, Conservation of Natural Resources, Ecosystem

Abstract

Tropical coral reefs are threatened and in decline, and their future is highly uncertain. With increasing rates of climate change and rising global temperatures, people looking to coral reefs for food and income may increasingly have to rely on resources from other habitats. Efforts to protect and conserve the coral reefs we have left are critical for a suite of economic, ecological, cultural and intrinsic reasons, but there is also an urgent need to take heed of the future scenarios from coral reefs and broaden the focus of tropical marine conservation. Seagrass meadows in particular are becoming ever more important for people and planet as coral reef health declines, but these systems are also globally under stronger anthropogenic threat. We need to increase and reprioritize our conservation efforts and use our limited conservation resources in a more targeted manner in order to attain sustainable systems. For seagrass, there are practicable conservation opportunities to develop sustainable ways to respond to increased resource use. Targeted action now could restore and protect seagrass meadows to maintain the many ecosystem services they provide., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

30. Crowdsourcing conservation: The role of citizen science in securing a future for seagrass.

Author

Jones BL, Unsworth RKF, McKenzie LJ, Yoshida RL, and Cullen-Unsworth LC

Subjects

Aquatic Organisms, Conservation of Water Resources methods, Ecosystem, Environmental Monitoring economics, Environmental Monitoring methods, Environmental Policy, European Union, Humans, Knowledge, Community Participation methods, Conservation of Water Resources economics, Crowdsourcing, Plants

Abstract

Seagrass meadows are complex social-ecological systems. Understanding seagrass meadows demands a fresh approach integrating "the human dimension". Citizen science is widely acknowledged for providing significant contributions to science, education, society and policy. Although the take up of citizen science in the marine environment has been slow, the need for such methods to fill vast information gaps is arguably great. Seagrass meadows are easy to access and provide an example of where citizen science is expanding. Technological developments have been pivotal to this, providing new opportunities for citizens to engage with seagrass. The increasing use of online tools has created opportunities to collect and submit as well as help process and analyse data. Citizen science has helped researchers integrate scientific and local knowledge and engage communities to implement conservation measures. Here we use a selection of examples to demonstrate how citizen science can secure a future for seagrass., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2018

31. Reasons for seagrass optimism: Local ecological knowledge confirms presence of dugongs.

Author

Cullen-Unsworth LC, Jones BL, Seary R, Newman R, and Unsworth RKF

Subjects

Animals, Ecosystem, Fisheries, Humans, Indonesia, Population Density, Surveys and Questionnaires, Conservation of Water Resources methods, Dugong

Abstract

Dugongs (Dugong dugon) depend on seagrass meadows for food. As such seagrass and dugong conservation should go hand in hand. Assessing dugong populations is notoriously challenging. In the most resource dependent communities Local Ecological Knowledge (LEK) is generally high and can provide an alternative to the use of expensive ecological surveys to understand dugong populations and support associated resource management decisions. Residents of the Wakatobi National Park (WNP), SE Sulawesi, Indonesia are highly dependent on marine resources for livelihoods and correspondingly LEK is high. Here LEK documents the presence of D. dugon in the WNP and infers changes in population size. Interviews with local residents in 2012-2013 revealed 99 sightings of dugongs since 1942, 48 of which occurred between 2002 and 2012, with 79.82% of respondents having seen a dugong. Declines in the frequency of sightings within the lifetime of several respondents were reported, respondents speculating that populations are reduced. This information can guide further cooperative research and conservation efforts for the protection of a vulnerable species and the seagrass habitat on which it depends., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2018

32. The discovery of deep-water seagrass meadows in a pristine Indian Ocean wilderness revealed by tracking green turtles.

Author

Esteban N, Unsworth RKF, Gourlay JBQ, and Hays GC

Subjects

Animals, Conservation of Water Resources, Ecosystem, Fishes, Indian Ocean, Satellite Communications, Sharks, Turtles, Alismatales physiology, Environmental Monitoring methods

Abstract

Our understanding of global seagrass ecosystems comes largely from regions characterized by human impacts with limited data from habitats defined as notionally pristine. Seagrass assessments also largely focus on shallow-water coastal habitats with comparatively few studies on offshore deep-water seagrasses. We satellite tracked green turtles (Chelonia mydas), which are known to forage on seagrasses, to a remote, pristine deep-water environment in the Western Indian Ocean, the Great Chagos Bank, which lies in the heart of one of the world's largest marine protected areas (MPAs). Subsequently we used in-situ SCUBA and baited video surveys to survey the day-time sites occupied by turtles and discovered extensive monospecific seagrass meadows of Thalassodendron ciliatum. At three sites that extended over 128 km, mean seagrass cover was 74% (mean range 67-88% across the 3 sites at depths to 29 m. The mean species richness of fish in seagrass meadows was 11 species per site (mean range 8-14 across the 3 sites). High fish abundance (e.g. Siganus sutor: mean MaxN.site -1  = 38.0, SD = 53.7, n = 5) and large predatory shark (Carcharhinus amblyrhynchos) (mean MaxN.site -1  = 1.5, SD = 0.4, n = 5) were recorded at all sites. Such observations of seagrass meadows with large top predators, are limited in the literature. Given that the Great Chagos Bank extends over approximately 12,500 km 2 and many other large deep submerged banks exist across the world's oceans, our results suggest that deep-water seagrass may be far more abundant than previously suspected., (Copyright © 2018 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2018

33. Finding some seagrass optimism in Wales, the case of Zostera noltii.

Author

Bertelli CM, Robinson MT, Mendzil AF, Pratt LR, and Unsworth RKF

Subjects

Environmental Monitoring, Estuaries, Wales, Zosteraceae physiology

Abstract

There exists limited understanding of the long-term dynamics of the seagrass Zostera noltii and how this is influenced by anthropogenic pressures. Milford Haven is a heavily industrialised estuary and also one of the important sites for Zostera sp. in the UK. In this study we examine all available long-term spatial variability and abundance data of Zostera noltii within Milford Haven using historic datasets. Results show that Z. noltii in all sites have shown meadow expansion when compared to the first obtainable records. Little change in abundance over the past 10-15years for the two sites confirms certain seagrass populations to be robust and thriving. We hypothesise that these populations are showing a level of resilience to the high nutrient levels, disturbance and high turbidity present within the water column of the Haven., (Copyright © 2017. Published by Elsevier Ltd.)

Published

2018

34. Indonesia's globally significant seagrass meadows are under widespread threat.

Author

Unsworth RKF, Ambo-Rappe R, Jones BL, La Nafie YA, Irawan A, Hernawan UE, Moore AM, and Cullen-Unsworth LC

Subjects

Biodiversity, Climate Change, Conservation of Natural Resources, Fisheries, Indonesia, Ecosystem, Environmental Monitoring

Abstract

Indonesia's marine ecosystems form a fundamental part of the world's natural heritage, representing a global maxima of marine biodiversity and supporting the world's second largest production of seafood. Seagrasses are a key part of that support. In the absence of empirical data we present evidence from expert opinions as to the state of Indonesia's seagrass ecosystems, their support for ecosystem services, with a focus on fisheries, and the damaging activities that threaten their existence. We further draw on expert opinion to elicit potential solutions to prevent further loss. Seagrasses and the ecosystem services they support across the Indonesian archipelago are in a critical state of decline. Declining seagrass health is the result of shifting environmental conditions due largely to coastal development, land reclamation, and deforestation, as well as seaweed farming, overfishing and garbage dumping. In particular, we also describe the declining state of the fisheries resources that seagrass meadows support. The perilous state of Indonesia's seagrasses will compromise their resilience to climate change and result in a loss of their high ecosystem service value. Community supported management initiatives provide one mechanism for seagrass protection. Exemplars highlight the need for increased local level autonomy for the management of marine resources, opening up opportunities for incentive type conservation schemes., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

35. Tracking Nitrogen Source Using δ 15 N Reveals Human and Agricultural Drivers of Seagrass Degradation across the British Isles.

Author

Jones BL, Cullen-Unsworth LC, and Unsworth RKF

Abstract

Excess nutrients shift the ecological balance of coastal ecosystems, and this eutrophication is an increasing problem across the globe. Nutrient levels may be routinely measured, but monitoring rarely attempts to determine the source of these nutrients, even though bio-indicators are available. Nitrogen stable isotope analysis in biota is one such bio-indicator, but across the British Isles, this is rarely used. In this study, we provide the first quantitative evidence of the anthropogenic drivers of reduced water quality surrounding seagrass meadows throughout the British Isles using the stable nitrogen isotope δ 15 N. The values of δ 15 N ranged from 3.15 to 20.16‰ (Mean ± SD = 8.69 ± 3.50‰), and were high within the Thames Basin suggesting a significant influx of urban sewage and livestock effluent into the system. Our study provides a rapid 'snapshot' indicating that many seagrass meadows in the British Isles are under anthropogenic stress given the widespread inefficiencies of current sewage treatment and farming practices. Ten of the 11 seagrass meadows sampled are within European marine protected sites. The 10 sites all contained seagrass contaminated by nutrients of a human and livestock waste origin leading us to question whether generic blanket protection is working for seagrasses in the United Kingdom. Infrastructure changes will be required if we are to develop strategic wastewater management plans that are effective in the long-term at protecting our designated Special Areas of Conservation. Currently, sewage pollution is a concealed issue; little information exists and is not readily accessible to members of the public.

Published

2018

36. Latitude, temperature, and habitat complexity predict predation pressure in eelgrass beds across the Northern Hemisphere.

Author

Reynolds PL, Stachowicz JJ, Hovel K, Boström C, Boyer K, Cusson M, Eklöf JS, Engel FG, Engelen AH, Eriksson BK, Fodrie FJ, Griffin JN, Hereu CM, Hori M, Hanley TC, Ivanov M, Jorgensen P, Kruschel C, Lee KS, McGlathery K, Moksnes PO, Nakaoka M, O'Connor MI, O'Connor NE, Orth RJ, Rossi F, Ruesink J, Sotka EE, Thormar J, Tomas F, Unsworth RKF, Whalen MA, and Duffy JE

Subjects

Animals, Biodiversity, Ecosystem, Temperature, Predatory Behavior, Zosteraceae

Abstract

Latitudinal gradients in species interactions are widely cited as potential causes or consequences of global patterns of biodiversity. However, mechanistic studies documenting changes in interactions across broad geographic ranges are limited. We surveyed predation intensity on common prey (live amphipods and gastropods) in communities of eelgrass (Zostera marina) at 48 sites across its Northern Hemisphere range, encompassing over 37° of latitude and four continental coastlines. Predation on amphipods declined with latitude on all coasts but declined more strongly along western ocean margins where temperature gradients are steeper. Whereas in situ water temperature at the time of the experiments was uncorrelated with predation, mean annual temperature strongly positively predicted predation, suggesting a more complex mechanism than simply increased metabolic activity at the time of predation. This large-scale biogeographic pattern was modified by local habitat characteristics; predation declined with higher shoot density both among and within sites. Predation rates on gastropods, by contrast, were uniformly low and varied little among sites. The high replication and geographic extent of our study not only provides additional evidence to support biogeographic variation in predation intensity, but also insight into the mechanisms that relate temperature and biogeographic gradients in species interactions., (© 2017 by the Ecological Society of America.)

Published

2018

37. The fundamental role of ecological feedback mechanisms for the adaptive management of seagrass ecosystems - a review.

Author

Maxwell PS, Eklöf JS, van Katwijk MM, O'Brien KR, de la Torre-Castro M, Boström C, Bouma TJ, Krause-Jensen D, Unsworth RKF, van Tussenbroek BI, and van der Heide T

Subjects

Ecology, Environment, Alismatales physiology, Conservation of Natural Resources, Ecosystem

Abstract

Seagrass meadows are vital ecosystems in coastal zones worldwide, but are also under global threat. One of the major hurdles restricting the success of seagrass conservation and restoration is our limited understanding of ecological feedback mechanisms. In these ecosystems, multiple, self-reinforcing feedbacks can undermine conservation efforts by masking environmental impacts until the decline is precipitous, or alternatively they can inhibit seagrass recovery in spite of restoration efforts. However, no clear framework yet exists for identifying or dealing with feedbacks to improve the management of seagrass ecosystems. Here we review the causes and consequences of multiple feedbacks between seagrass and biotic and/or abiotic processes. We demonstrate how feedbacks have the potential to impose or reinforce regimes of either seagrass dominance or unvegetated substrate, and how the strength and importance of these feedbacks vary across environmental gradients. Although a myriad of feedbacks have now been identified, the co-occurrence and likely interaction among feedbacks has largely been overlooked to date due to difficulties in analysis and detection. Here we take a fundamental step forward by modelling the interactions among two distinct above- and belowground feedbacks to demonstrate that interacting feedbacks are likely to be important for ecosystem resilience. On this basis, we propose a five-step adaptive management plan to address feedback dynamics for effective conservation and restoration strategies. The management plan provides guidance to aid in the identification and prioritisation of likely feedbacks in different seagrass ecosystems., (© 2016 Cambridge Philosophical Society.)

Published

2017

38. Rocking the Boat: Damage to Eelgrass by Swinging Boat Moorings.

Author

Unsworth RKF, Williams B, Jones BL, and Cullen-Unsworth LC

Abstract

Seagrass meadows commonly reside in shallow sheltered embayments typical of the locations that provide an attractive option for mooring boats. Given the potential for boat moorings to result in disturbance to the seabed due to repeated physical impact, these moorings may present a significant threat to seagrass meadows. The seagrass Zostera marina (known as eelgrass) is extensive across the northern hemisphere, forming critical fisheries habitat and creating efficient long-term stores of carbon in sediments. Although boat moorings have been documented to impact seagrasses, studies to date have been conducted on the slow growing Posidonia species' rather than the fast growing and rapidly reproducing Z. marina that may have a higher capacity to resist and recover from repeated disturbance. In the present study we examine swinging chain boat moorings in seagrass meadows across a range of sites in the United Kingdom to determine whether such moorings have a negative impact on the seagrass Zostera marina at the local and meadow scale. We provide conclusive evidence from multiple sites that Z. marina is damaged by swinging chain moorings leading to a loss of at least 6 ha of United Kingdom seagrass. Each swinging chain mooring was found to result in the loss of 122 m 2 of seagrass. Loss is restricted to the area surrounding the mooring and the impact does not appear to translate to a meadow scale. This loss of United Kingdom seagrass from boat moorings is small but significant at a local scale. This is because it fragments existing meadows and ultimately reduces their resilience to other stressors. Boat moorings are prevalent in seagrass globally and it is likely this impairs their ecosystem functioning. Given the extensive ecosystem service value of seagrasses in terms of factors such as carbon storage and fish habitat such loss is of cause for concern. This indicates the need for the widespread use of seagrass friendly mooring systems in and around seagrass.

Published

2017

39. Seagrass meadows.

Author

Unsworth RKF and Cullen-Unsworth LC

Subjects

Alismatales classification, Environmental Monitoring, Water Quality, Alismatales physiology, Conservation of Natural Resources, Ecosystem, Oceans and Seas

Abstract

Seagrass meadows are an important and threatened ecosystem., (Copyright © 2017. Published by Elsevier Ltd.)

Published

2017

40. A framework for the resilience of seagrass ecosystems.

Author

Unsworth RKF, Collier CJ, Waycott M, Mckenzie LJ, and Cullen-Unsworth LC

Subjects

Alismatales genetics, Biodiversity, Climate Change, Conservation of Natural Resources, Genetic Variation, Population Dynamics, Reproduction, Water Quality, Alismatales physiology, Ecosystem, Models, Theoretical

Abstract

Seagrass ecosystems represent a global marine resource that is declining across its range. To halt degradation and promote recovery over large scales, management requires a radical change in emphasis and application that seeks to enhance seagrass ecosystem resilience. In this review we examine how the resilience of seagrass ecosystems is becoming compromised by a range of local to global stressors, resulting in ecological regime shifts that undermine the long-term viability of these productive ecosystems. To examine regime shifts and the management actions that can influence this phenomenon we present a conceptual model of resilience in seagrass ecosystems. The model is founded on a series of features and modifiers that act as interacting influences upon seagrass ecosystem resilience. Improved understanding and appreciation of the factors and modifiers that govern resilience in seagrass ecosystems can be utilised to support much needed evidence based management of a vital natural resource., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

41. Disturbance influences the invasion of a seagrass into an existing meadow.

Author

McKenzie LJ, Yoshida RL, and Unsworth RKF

Subjects

Human Activities, Humans, Alismatales growth & development, Climate Change, Ecosystem, Grassland, Introduced Species

Abstract

Future impacts from climate change and human activities may increase the likelihood of invasions of native marine species into existing habitats as a result of range shifts. To provide an understanding of the invasion of a native seagrass species (Syringodium isoetifolium) into a tropical multi-species meadow, detailed field assessments were conducted over a six year period. After establishing in a discrete patch, the extent and standing crop of S.isoetifolium increased 800 and 7000 fold, respectively, between 1988 and 2003 (∼300-260,000 m(2) and<1 kg DW to 7596±555 kg DW). The expansion of S.isoetifolium was confined to subtidal areas and appears primarily from clonal growth. The observed expansion of this species into a new locality was found to be clearly influenced by cumulative impacts and chronic small-scale physical disturbances. This study has immediate relevance to managing impacts which influence the spread of invasive species., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014