Your search keyword '"Worthington, TA"' showing total 31 results

1. A global horizon scan of issues impacting marine and coastal biodiversity conservation

Author

Herbert-Read, JE, Thornton, A, Amon, DJ, Birchenough, SNR, Côté, IM, Dias, MP, Godley, BJ, Keith, SA, McKinley, E, Peck, LS, Calado, R, Defeo, O, Degraer, S, Johnston, EL, Kaartokallio, H, Macreadie, Peter, Metaxas, A, Muthumbi, AWN, Obura, DO, Paterson, DM, Piola, AR, Richardson, AJ, Schloss, IR, Snelgrove, PVR, Stewart, BD, Thompson, PM, Watson, GJ, Worthington, TA, Yasuhara, M, Sutherland, WJ, Herbert-Read, JE, Thornton, A, Amon, DJ, Birchenough, SNR, Côté, IM, Dias, MP, Godley, BJ, Keith, SA, McKinley, E, Peck, LS, Calado, R, Defeo, O, Degraer, S, Johnston, EL, Kaartokallio, H, Macreadie, Peter, Metaxas, A, Muthumbi, AWN, Obura, DO, Paterson, DM, Piola, AR, Richardson, AJ, Schloss, IR, Snelgrove, PVR, Stewart, BD, Thompson, PM, Watson, GJ, Worthington, TA, Yasuhara, M, and Sutherland, WJ

Published

2022

2. Drivers of global mangrove loss and gain in social-ecological systems

Author

Hagger, V, Worthington, TA, Lovelock, CE, Adame, MF, Amano, T, Brown, BM, Friess, DA, Landis, E, Mumby, PJ, Morrison, TH, O'Brien, KR, Wilson, KA, Zganjar, C, Saunders, M, Hagger, V, Worthington, TA, Lovelock, CE, Adame, MF, Amano, T, Brown, BM, Friess, DA, Landis, E, Mumby, PJ, Morrison, TH, O'Brien, KR, Wilson, KA, Zganjar, C, and Saunders, M

Abstract

Mangrove forests store high amounts of carbon, protect communities from storms, and support fisheries. Mangroves exist in complex social-ecological systems, hence identifying socioeconomic conditions associated with decreasing losses and increasing gains remains challenging albeit important. The impact of national governance and conservation policies on mangrove conservation at the landscape-scale has not been assessed to date, nor have the interactions with local economic pressures and biophysical drivers. Here, we assess the relationship between socioeconomic and biophysical variables and mangrove change across coastal geomorphic units worldwide from 1996 to 2016. Globally, we find that drivers of loss can also be drivers of gain, and that drivers have changed over 20 years. The association with economic growth appears to have reversed, shifting from negatively impacting mangroves in the first decade to enabling mangrove expansion in the second decade. Importantly, we find that community forestry is promoting mangrove expansion, whereas conversion to agriculture and aquaculture, often occurring in protected areas, results in high loss. Sustainable development, community forestry, and co-management of protected areas are promising strategies to reverse mangrove losses, increasing the capacity of mangroves to support human-livelihoods and combat climate change.

Published

2022

3. Principles for the production of evidence-based guidance for conservation actions

Author

Downey, H, Bretagnolle, V, Brick, C, Bulman, CR, Cooke, SJ, Dean, M, Edmonds, B, Frick, WF, Friedman, K, McNicol, C, Nichols, C, Herbert, S, O'Brien, D, Ockendon, N, Petrovan, S, Stroud, D, White, TB, Worthington, TA, Sutherland, WJ, Downey, H [0000-0003-1976-6973], Frick, WF [0000-0002-9469-1839], White, TB [0000-0002-0536-6162], Sutherland, WJ [0000-0002-6498-0437], and Apollo - University of Cambridge Repository

Subjects

knowledge, recommendations, evidence-based conservation, practice, policy

Abstract

Funder: MAVA Foundation; Id: http://dx.doi.org/10.13039/100013324, Funder: The David and Claudia Harding Foundation, Funder: Arcadia; Id: http://dx.doi.org/10.13039/100012088, Many types of guidance documents inform conservation by providing practical recommendations for the management of species and habitats. To ensure effective decisions are made, such guidance should be based upon relevant and up‐to‐date evidence. We reviewed conservation guidance for mitigation and management of species and habitats in the United Kingdom and Ireland, identifying 301 examples produced by over 50 organizations. Of these, only 29% provided a reference list, of which only 32% provided reference(s) relevant to justify the recommended actions (9% of the total). Furthermore, even this guidance was often outdated, lacked a methodology for production, or did not highlight uncertainty in the key evidence that supported the recommendations. These deficiencies can lead to misguided and ineffective conservation practices, policies, and decisions, and a waste of resources. Based on this review and co‐design by experts from 14 organizations, we present a set of principles for ensuring sufficient and relevant evidence is transparently incorporated into future conservation guidance. Producing evidence‐based guidance in line with these principles would enable more effective conservation outcomes.

Published

2022

4. Economic and social constraints on reforestation for climate mitigation in Southeast Asia

Author

Zeng, Y, Sarira, TV, Carrasco, LR, Chong, KY, Friess, DA, Lee, JSH, Taillardat, P, Worthington, TA, Zhang, Y, Koh, LP, Zeng, Y [0000-0001-7787-314X], Sarira, TV [0000-0001-7643-4647], Carrasco, LR [0000-0002-2894-1473], Chong, KY [0000-0003-4754-8957], Lee, JSH [0000-0001-6368-6212], Taillardat, P [0000-0003-0195-3690], Worthington, TA [0000-0002-8138-9075], Zhang, Y [0000-0001-5195-0258], Koh, LP [0000-0001-8152-3871], and Apollo - University of Cambridge Repository

Subjects

13 Climate Action, 15 Life on Land, 4104 Environmental Management, 41 Environmental Sciences

Abstract

As climate change continues to threaten human and natural systems, the search for cost-effective and practical mitigation solutions is gaining momentum. Reforestation has recently been identified as a promising nature-based climate solution. Yet there are context-dependent biophysical, financial, land-use and operational constraints to reforestation that demand careful consideration. Here, we show that 121 million ha of presently degraded land in Southeast Asia, a region noted for its significant reforestation potential, are biophysically suitable for reforestation. Reforestation of this land would contribute 3.43 ± 1.29 PgCO2e yr−1 to climate mitigation through 2030. However, by taking a combination of on-the-ground financial, land use and operational constraints into account, we find that only a fraction of that mitigation potential may be achievable (0.3–18%). Such constraints are not insurmountable, but they show that careful planning and consideration are needed for effective landscape-scale reforestation.

Published

2020

5. Mapping the Extent of Mangrove Ecosystem Degradation by Integrating an Ecological Conceptual Model with Satellite Data

Author

Lee, CKF, Duncan, C, Nicholson, Emily, Fatoyinbo, TE, Lagomasino, D, Thomas, N, Worthington, TA, Murray, NJ, Lee, CKF, Duncan, C, Nicholson, Emily, Fatoyinbo, TE, Lagomasino, D, Thomas, N, Worthington, TA, and Murray, NJ

Published

2021

6. Geographic Variation in Salt Marsh Structure and Function for Nekton: a Guide to Finding Commonality Across Multiple Scales

Author

Ziegler, SL, Ziegler, SL, Baker, R, Crosby, SC, Colombano, DD, Barbeau, MA, Cebrian, J, Connolly, RM, Deegan, LA, Gilby, BL, Mallick, D, Martin, CW, Nelson, JA, Reinhardt, JF, Simenstad, CA, Waltham, NJ, Worthington, TA, Rozas, LP, Ziegler, SL, Ziegler, SL, Baker, R, Crosby, SC, Colombano, DD, Barbeau, MA, Cebrian, J, Connolly, RM, Deegan, LA, Gilby, BL, Mallick, D, Martin, CW, Nelson, JA, Reinhardt, JF, Simenstad, CA, Waltham, NJ, Worthington, TA, and Rozas, LP

Abstract

Coastal salt marshes are distributed widely across the globe and are considered essential habitat for many fish and crustacean species. Yet, the literature on fishery support by salt marshes has largely been based on a few geographically distinct model systems, and as a result, inadequately captures the hierarchical nature of salt marsh pattern, process, and variation across space and time. A better understanding of geographic variation and drivers of commonalities and differences across salt marsh systems is essential to informing future management practices. Here, we address the key drivers of geographic variation in salt marshes: hydroperiod, seascape configuration, geomorphology, climatic region, sediment supply and riverine input, salinity, vegetation composition, and human activities. Future efforts to manage, conserve, and restore these habitats will require consideration of how environmental drivers within marshes affect the overall structure and subsequent function for fisheries species. We propose a future research agenda that provides both the consistent collection and reporting of sources of variation in small-scale studies and collaborative networks running parallel studies across large scales and geographically distinct locations to provide analogous information for data poor locations. These comparisons are needed to identify and prioritize restoration or conservation efforts, identify sources of variation among regions, and best manage fisheries and food resources across the globe.

Published

2021

7. Myanmar's terrestrial ecosystems: Status, threats and conservation opportunities

Author

Murray, NJ, Keith, DA ; https://orcid.org/0000-0002-7627-4150, Duncan, A, Tizard, R, Ferrer-Paris, JR ; https://orcid.org/0000-0002-9554-3395, Worthington, TA, Armstrong, K, Nyan Hlaing, Win Thuya Htut, Aung Htat Oo, Kyaw Zay Ya, Grantham, H ; https://orcid.org/0000-0002-8933-807X, Murray, NJ, Keith, DA ; https://orcid.org/0000-0002-7627-4150, Duncan, A, Tizard, R, Ferrer-Paris, JR ; https://orcid.org/0000-0002-9554-3395, Worthington, TA, Armstrong, K, Nyan Hlaing, Win Thuya Htut, Aung Htat Oo, Kyaw Zay Ya, and Grantham, H ; https://orcid.org/0000-0002-8933-807X

Abstract

Myanmar is highly biodiverse, with more than 16,000 plant, 314 mammal, 1131 bird, 293 reptile, and 139 amphibian species. Supporting this biodiversity is a variety of natural ecosystems—mostly undescribed—including tropical and subtropical forests, savannas, seasonally inundated wetlands, extensive shoreline and tidal systems, and alpine ecosystems. Although Myanmar contains some of the largest intact natural ecosystems in Southeast Asia, remaining ecosystems are under threat from accelerating land use intensification and over-exploitation. In this period of rapid change, a systematic risk assessment is urgently needed to estimate the extent and magnitude of human impacts and identify ecosystems most at risk to help guide strategic conservation action. Here we provide the first comprehensive conservation assessment of Myanmar's natural terrestrial ecosystems using the IUCN Red List of Ecosystems categories and criteria. We identified 64 ecosystem types for the assessment, and used models of ecosystem distributions and syntheses of existing data to estimate declines in distribution, range size, and functioning of each ecosystem. We found that more than a third (36.9%) of Myanmar's area has been converted to anthropogenic ecosystems over the last 2–3 centuries, leaving nearly half of Myanmar's ecosystems threatened (29 of 64 ecosystems). A quarter of Myanmar's ecosystems were identified as Data Deficient, reflecting a paucity of studies and an urgency for future research. Our results show that, with nearly two-thirds of Myanmar still covered in natural ecosystems, there is a crucial opportunity to develop a comprehensive protected area network that sufficiently represents Myanmar's terrestrial ecosystem diversity.

Published

2020

8. Indian Sundarbans mangrove forest considered endangered under Red List of Ecosystems, but there is cause for optimism

Author

Sievers, M, Chowdhury, MR, Adame, MF, Bhadury, P, Bhargava, R, Buelow, C, Friess, DA, Ghosh, A, Hayes, MA, McClure, EC, Pearson, RM, Turschwell, MP, Worthington, TA, and Connolly, RM

Subjects

Impact evaluation, Ecosystem risk assessment, 13. Climate action, Habitat evaluation, Habitat assessment, 14. Life underwater, Ecosystem condition, Ecosystem integrity, 15. Life on land

Abstract

Accurately evaluating ecosystem status is vital for effective conservation. The Red List of Ecosystems (RLE) from the International Union for the Conservation of Nature (IUCN) is the global standard for assessing the risk of ecosystem collapse. Such tools are particularly needed for large, dynamic ecosystem complexes, such as the Indian Sundarbans mangrove forest. This ecosystem supports unique biodiversity and the livelihoods of millions, but like many mangrove forests around the world is facing substantial pressure from a range of human activities. Holistic, standardised and quantitative environment risk assessment frameworks are essential here, because previous assessments have either been qualitative in nature, or have generally considered single threats in isolation. We review these threats and utilise the RLE framework to quantitatively assess the risk of ecosystem collapse. Historical clearing and diminishing fish populations drove a status of Endangered (range: Vulnerable to Endangered), and ongoing threats including climate change and reduced freshwater supply may further impact this ecosystem. However, considering recent change, the outlook is more optimistic. Mangrove extent has stabilised, and analysis of mangrove condition highlights that only a small proportion of the forest is degraded. Using the RLE provides an authoritative avenue for further protection and recognition of the issues facing this UNESCO World Heritage Site. We also identify knowledge and data gaps in the Sundarbans that are likely common to coastal systems globally. By articulating these and presenting opportunities and recommendations, we aim to further the conservation goals of the IUCN and the implementation of its new assessment framework.

9. Insights from two decades of the Student Conference on Conservation Science

Author

Geldmann, J, Alves-Pinto, H, Amano, T, Bartlett, H, Christie, AP, Collas, L, Cooke, SC, Correa, R, Cripps, I, Doherty, A, Finch, T, Garnett, EE, Hua, F, Jones, JPG, Kasoar, T, MacFarlane, D, Martin, PA, Mukherjee, N, Mumby, HS, Payne, C, Petrovan, SO, Rocha, R, Russell, K, Simmons, BI, Wauchope, HS, Worthington, TA, Trevelyan, R, Green, R, and Balmford, A

Subjects

Cross-disciplinarity, Bias, Early career, New conservation, Capacity building, Field study, 14. Life underwater, Student

Abstract

Conservation science is a crisis-oriented discipline focused on reducing human impacts on nature. To explore how the field has changed over the past two decades, we analyzed 3245 applications for oral presentations submitted to the Student Conference on Conservation Science (SCCS) in Cambridge, UK. SCCS has been running every year since 2000, aims for global representation by providing bursaries to early-career conservationists from lower-income countries, and has never had a thematic focus, beyond conservation in the broadest sense. We found that the majority of projects submitted to SCCS were based on primary biological data collected from local scale field studies in the tropics, contrary to established literature which highlights gaps in tropical research. Our results showed a small increase over time in submissions framed around how nature benefits people as well as a small increase in submissions integrating social science. Our findings suggest that students and early-career conservationists could provide pathways to increase availability of data from the tropics and address well-known biases in the published literature towards wealthier countries. We hope this research will motivate efforts to support student projects, ensuring data and results are published and data made publicly available.

10. Global Mangrove Extent Change 1996–2020: Global Mangrove Watch Version 3.0

Author

Pete Bunting, Ake Rosenqvist, Lammert Hilarides, Richard M. Lucas, Nathan Thomas, Takeo Tadono, Thomas A. Worthington, Mark Spalding, Nicholas J. Murray, Lisa-Maria Rebelo, Bunting, P [0000-0002-7435-0148], Rosenqvist, A [0000-0001-7896-502X], Hilarides, L [0000-0002-4364-7547], Lucas, RM [0000-0003-3010-3302], Thomas, N [0000-0002-7808-6444], Tadono, T [0000-0003-4313-5645], Worthington, TA [0000-0002-8138-9075], Murray, NJ [0000-0002-4008-3053], Rebelo, LM [0000-0002-8785-7810], and Apollo - University of Cambridge Repository

Subjects

Global Mangrove Watch, L-band, mangrove, extent, change, SAR, change detection, General Earth and Planetary Sciences

Abstract

Mangroves are a globally important ecosystem that provides a wide range of ecosystem system services, such as carbon capture and storage, coastal protection and fisheries enhancement. Mangroves have significantly reduced in global extent over the last 50 years, primarily as a result of deforestation caused by the expansion of agriculture and aquaculture in coastal environments. However, a limited number of studies have attempted to estimate changes in global mangrove extent, particularly into the 1990s, despite much of the loss in mangrove extent occurring pre-2000. This study has used L-band Synthetic Aperture Radar (SAR) global mosaic datasets from the Japan Aerospace Exploration Agency (JAXA) for 11 epochs from 1996 to 2020 to develop a long-term time-series of global mangrove extent and change. The study used a map-to-image approach to change detection where the baseline map (GMW v2.5) was updated using thresholding and a contextual mangrove change mask. This approach was applied between all image-date pairs producing 10 maps for each epoch, which were summarised to produce the global mangrove time-series. The resulting mangrove extent maps had an estimated accuracy of 87.4% (95th conf. int.: 86.2–88.6%), although the accuracies of the individual gain and loss change classes were lower at 58.1% (52.4–63.9%) and 60.6% (56.1–64.8%), respectively. Sources of error included misregistration in the SAR mosaic datasets, which could only be partially corrected for, but also confusion in fragmented areas of mangroves, such as around aquaculture ponds. Overall, 152,604 km2 (133,996–176,910) of mangroves were identified for 1996, with this decreasing by −5245 km2 (−13,587–1444) resulting in a total extent of 147,359 km2 (127,925–168,895) in 2020, and representing an estimated loss of 3.4% over the 24-year time period. The Global Mangrove Watch Version 3.0 represents the most comprehensive record of global mangrove change achieved to date and is expected to support a wide range of activities, including the ongoing monitoring of the global coastal environment, defining and assessments of progress toward conservation targets, protected area planning and risk assessments of mangrove ecosystems worldwide.

Published

2022

11. Determining the economic costs and benefits of conservation actions: A decision support framework

Author

Thomas B. White, Silviu O. Petrovan, Hollie Booth, Roberto J. Correa, Yasmine Gatt, Philip A. Martin, Helena Newell, Thomas A. Worthington, William J. Sutherland, White, TB [0000-0002-0536-6162], Petrovan, SO [0000-0002-3984-2403], Booth, H [0000-0003-4339-820X], Martin, PA [0000-0002-5346-8868], Worthington, TA [0000-0002-8138-9075], Sutherland, WJ [0000-0002-6498-0437], and Apollo - University of Cambridge Repository

Subjects

Global and Planetary Change, Ecology, return-on-investment, financial costs, cost-effectiveness analysis, biodiversity conservation costs, evidence-based conservation, Environmental Science (miscellaneous), decision making, Nature and Landscape Conservation

Abstract

Funder: University of Cambridge; Id: http://dx.doi.org/10.13039/501100000735, The need for conservation action to be cost‐effective is widely accepted, resulting in increased interest and effort to assess effectiveness. Assessing the financial and economic costs of conservation is equally important for assessing cost‐effectiveness, yet their measurement and assessment are repeatedly identified as lacking. The healthcare sector, in contrast, has made substantial progress in identifying and including costs in decision‐making. Here, we consider what conservation can learn from this experience. We present a three‐step framework for identifying and recording the relevant economic costs and benefits of conservation interventions where the user (1) describes the costing context, (2) determines which types of cost and benefit to include, and (3) obtains values for these costs and benefits alongside metadata necessary for others to interpret the data. This framework is designed to help estimate economic costs but can also be used flexibly to record the direct costs of interventions (i.e., financial costs) and calculate financial and economic benefits. Although recording data on economic costs and benefits is deceptively complex, this framework facilitates improved recording, and indicates how collating this data could enhance the assessment of cost‐effectiveness across conservation contexts using a range of decision‐making tools.

Published

2022

12. The emblematic minnows of the North American Great Plains: A synthesis of threats and conservation opportunities

Author

Shannon K. Brewer, Robert Mollenhauer, Thomas A. Worthington, Daniel R. Logue, Nicole Farless, Joseph J. Dyer, Joshuah S. Perkin, Anthony A. Echelle, Worthington, TA [0000-0002-8138-9075], Brewer, SK [0000-0002-1537-3921], and Apollo - University of Cambridge Repository

Subjects

0106 biological sciences, Ecology (disciplines), Drainage basin, Management, Monitoring, Policy and Law, Aquatic Science, Biology, habitat complexity, Oceanography, 010603 evolutionary biology, 01 natural sciences, Invasive species, Abundance (ecology), fragmentation, Ecology, Evolution, Behavior and Systematics, geography, geography.geographical_feature_category, Ecology, 010604 marine biology & hydrobiology, flow alteration, Fragmentation (computing), conservation, non-native species, Great Plains, Habitat, Guild, Conservation status

Abstract

© 2017 John Wiley & Sons Ltd. Anthropogenic changes to the Great Plains rivers of North America have had a large, negative effect on a reproductive guild of pelagic-broadcast spawning (PBS) cyprinid fishes. The group is phylogenetically diverse, with multiple origins of the PBS mode. However, because of incomplete life-history information, PBS designation often relies only on habitat and egg characteristics. We identified 17 known or candidate PBS fishes and systematically synthesized the literature on their biology and ecology in relation to major threats to persistence. Research output on an individual species was unrelated to conservation status, but positively correlated with breadth of distribution. The PBS species have opportunistic life-history strategies and are typically short-lived (generally 1-3 years) fishes. Many PBS species have truncated ranges showing declines in both distribution and abundance, especially those endemic to the Rio Grande catchment. Fundamental habitat associations are unknown for many species, particularly regarding seasonal shifts and early life stages. Critical thermal tolerances have been quantified for five PBS species and are generally > 35°C. Turbidity and salinity changes are linked to responses at multiple life stages, but information is lacking on interactions between water quality and quantity. Hydrologic alteration appears to be a primary threat to PBS species, through complex interactions with landscape fragmentation, and habitat change. We highlight areas where scientific and management communities are lacking information and underline areas of potential conservation gain.

Published

2018

13. Soil carbon in the world's tidal marshes.

Author

Maxwell TL, Spalding MD, Friess DA, Murray NJ, Rogers K, Rovai AS, Smart LS, Weilguny L, Adame MF, Adams JB, Austin WEN, Copertino MS, Cott GM, Duarte de Paula Costa M, Holmquist JR, Ladd CJT, Lovelock CE, Ludwig M, Moritsch MM, Navarro A, Raw JL, Ruiz-Fernández AC, Serrano O, Smeaton C, Van de Broek M, Windham-Myers L, Landis E, and Worthington TA

Abstract

Tidal marshes are threatened coastal ecosystems known for their capacity to store large amounts of carbon in their water-logged soils. Accurate quantification and mapping of global tidal marshes soil organic carbon (SOC) stocks is of considerable value to conservation efforts. Here, we used training data from 3710 unique locations, landscape-level environmental drivers and a global tidal marsh extent map to produce a global, spatially explicit map of SOC storage in tidal marshes at 30 m resolution. Here we show the total global SOC stock to 1 m to be 1.44 Pg C, with a third of this value stored in the United States of America. On average, SOC in tidal marshes' 0-30 and 30-100 cm soil layers are estimated at 83.1 Mg C ha -1 (average predicted error 44.8 Mg C ha -1 ) and 185.3 Mg C ha -1 (average predicted error 105.7 Mg C ha -1 ), respectively., Competing Interests: Competing interests: The authors declare no competing interests., (© 2024. The Author(s).)

Published

2024

14. Four decades of data indicate that planted mangroves stored up to 75% of the carbon stocks found in intact mature stands.

Author

Bourgeois CF, MacKenzie RA, Sharma S, Bhomia RK, Johnson NG, Rovai AS, Worthington TA, Krauss KW, Analuddin K, Bukoski JJ, Castillo JA, Elwin A, Glass L, Jennerjahn TC, Mangora MM, Marchand C, Osland MJ, Ratefinjanahary IA, Ray R, Severino G Salmo Iii, Sasmito SD, Suwa R, Tinh PH, and Trettin CC

Subjects

Rhizophoraceae growth & development, Rhizophoraceae metabolism, Bayes Theorem, Ecosystem, Carbon metabolism, Wetlands, Biomass, Soil chemistry

Abstract

Mangroves' ability to store carbon (C) has long been recognized, but little is known about whether planted mangroves can store C as efficiently as naturally established (i.e., intact) stands and in which time frame. Through Bayesian logistic models compiled from 40 years of data and built from 684 planted mangrove stands worldwide, we found that biomass C stock culminated at 71 to 73% to that of intact stands ~20 years after planting. Furthermore, prioritizing mixed-species planting including Rhizophora spp. would maximize C accumulation within the biomass compared to monospecific planting. Despite a 25% increase in the first 5 years following planting, no notable change was observed in the soil C stocks thereafter, which remains at a constant value of 75% to that of intact soil C stock, suggesting that planting effectively prevents further C losses due to land use change. These results have strong implications for mangrove restoration planning and serve as a baseline for future C buildup assessments.

Published

2024

15. Co-occurrence of biodiversity, carbon storage, coastal protection, and fish and invertebrate production to inform global mangrove conservation planning.

Author

Sievers M, Brown CJ, McGowan J, Turschwell MP, Buelow CA, Holgate B, Pearson RM, Adame MF, Andradi-Brown DA, Arnell A, Mackey BG, Ermgassen PSEZ, Gosling J, McOwen CJ, Worthington TA, and Connolly RM

Subjects

Humans, Animals, Conservation of Natural Resources, Biodiversity, Invertebrates, Ecosystem, Carbon

Abstract

Mangrove forests support unique biodiversity and provide a suite of ecosystem services (ES) that benefit people. Decades of continual mangrove loss and degradation have necessitated global efforts to protect and restore this important ecosystem. Generating and evaluating asset maps of biodiversity and ES is an important precursor to identifying locations that can deliver conservation outcomes across varying scales, such as maximising the co-occurrence of specific ES. We bring together global datasets on mangrove-affiliated biodiversity, carbon stocks, fish and invertebrate production, and coastal protection to provide insight into potential trade-offs, synergies and opportunities from mangrove conservation. We map opportunities where high ES provision co-occurs with these areas that could be leveraged in conservation planning, and identify potential high-value opportunities for single ES that might otherwise be missed with a biodiversity focus. Hotspots of single ES, co-occurrence of multiple ES, and opportunities to simultaneously leverage biodiversity and ES occurred throughout the world. For example, efforts that focus on conserving or restoring mangroves to store carbon can be targed to deliver multiple ES benefits. Some nations, such as Vietnam, Oman, Ecuador and China, showed consistent (although not necessarily strong) correlations between ES pairs. A lack of clear or consistent spatial trends elsewhere suggests that some nations will likely benefit more from complementarity-based approaches that focus on multiple sites with high provision of different services. Individual sites within these nations, however, such as Laguna de Terminos in Mexico still provide valuable opportunities to leverage co-benefits. Ensuring that an ES focused approach is complemented by strategic spatial planning is a priority, and our analyses provide a precursor towards decisions about where and how to invest., Competing Interests: Declaration of competing interest The authors declare no conflicts of interest., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2023

16. Global dataset of soil organic carbon in tidal marshes.

Author

Maxwell TL, Rovai AS, Adame MF, Adams JB, Álvarez-Rogel J, Austin WEN, Beasy K, Boscutti F, Böttcher ME, Bouma TJ, Bulmer RH, Burden A, Burke SA, Camacho S, Chaudhary DR, Chmura GL, Copertino M, Cott GM, Craft C, Day J, de Los Santos CB, Denis L, Ding W, Ellison JC, Ewers Lewis CJ, Giani L, Gispert M, Gontharet S, González-Pérez JA, González-Alcaraz MN, Gorham C, Graversen AEL, Grey A, Guerra R, He Q, Holmquist JR, Jones AR, Juanes JA, Kelleher BP, Kohfeld KE, Krause-Jensen D, Lafratta A, Lavery PS, Laws EA, Leiva-Dueñas C, Loh PS, Lovelock CE, Lundquist CJ, Macreadie PI, Mazarrasa I, Megonigal JP, Neto JM, Nogueira J, Osland MJ, Pagès JF, Perera N, Pfeiffer EM, Pollmann T, Raw JL, Recio M, Ruiz-Fernández AC, Russell SK, Rybczyk JM, Sammul M, Sanders C, Santos R, Serrano O, Siewert M, Smeaton C, Song Z, Trasar-Cepeda C, Twilley RR, Van de Broek M, Vitti S, Antisari LV, Voltz B, Wails CN, Ward RD, Ward M, Wolfe J, Yang R, Zubrzycki S, Landis E, Smart L, Spalding M, and Worthington TA

Abstract

Tidal marshes store large amounts of organic carbon in their soils. Field data quantifying soil organic carbon (SOC) stocks provide an important resource for researchers, natural resource managers, and policy-makers working towards the protection, restoration, and valuation of these ecosystems. We collated a global dataset of tidal marsh soil organic carbon (MarSOC) from 99 studies that includes location, soil depth, site name, dry bulk density, SOC, and/or soil organic matter (SOM). The MarSOC dataset includes 17,454 data points from 2,329 unique locations, and 29 countries. We generated a general transfer function for the conversion of SOM to SOC. Using this data we estimated a median (± median absolute deviation) value of 79.2 ± 38.1 Mg SOC ha -1 in the top 30 cm and 231 ± 134 Mg SOC ha -1 in the top 1 m of tidal marsh soils globally. This data can serve as a basis for future work, and may contribute to incorporation of tidal marsh ecosystems into climate change mitigation and adaptation strategies and policies., (© 2023. The Author(s).)

Published

2023

17. Panama must protect mangroves and peatlands.

Author

Hoyos-Santillan J, Miranda A, Castro de Doens L, González-Mahecha E, Cifuentes-Jara M, and Worthington TA

Published

2023

18. Global mangrove soil organic carbon stocks dataset at 30 m resolution for the year 2020 based on spatiotemporal predictive machine learning.

Author

Maxwell TL, Hengl T, Parente LL, Minarik R, Worthington TA, Bunting P, Smart LS, Spalding MD, and Landis E

Abstract

This dataset presents global soil organic carbon stocks in mangrove forests at 30 m resolution, predicted for 2020. We used spatiotemporal ensemble machine learning to produce predictions of soil organic carbon content and bulk density (BD) to 1 m soil depth, which were then aggregated to calculate soil organic carbon stocks. This was done by using training data points of both SOC (%) and BD in mangroves from a global dataset and from recently published studies, and globally consistent predictive covariate layers. A total of 10,331 soil samples were validated to have SOC (%) measurements and were used for predictive soil mapping. We used time-series remote sensing data specific to time periods when the training data were sampled, as well as long-term (static) layers to train an ensemble of machine learning model. Ensemble models were used to improve performance, robustness and unbiasedness as opposed to just using one learner. In addition, we performed spatial cross-validation by using spatial blocking of training data points to assess model performance. We predicted SOC stocks for the 2020 time period and applied them to a 2020 mangrove extent map, presenting both mean predictions and prediction intervals to represent the uncertainty around our predictions. Predictions are available for download under CC-BY license from 10.5281/zenodo.7729491 and also as Cloud-Optimized GeoTIFFs (global mosaics)., (© 2023 The Authors. Published by Elsevier Inc.)

Published

2023

19. Drivers of global mangrove loss and gain in social-ecological systems.

Author

Hagger V, Worthington TA, Lovelock CE, Adame MF, Amano T, Brown BM, Friess DA, Landis E, Mumby PJ, Morrison TH, O'Brien KR, Wilson KA, Zganjar C, and Saunders MI

Subjects

Humans, Forestry, Climate Change, Carbon, Conservation of Natural Resources, Ecosystem, Wetlands

Abstract

Mangrove forests store high amounts of carbon, protect communities from storms, and support fisheries. Mangroves exist in complex social-ecological systems, hence identifying socioeconomic conditions associated with decreasing losses and increasing gains remains challenging albeit important. The impact of national governance and conservation policies on mangrove conservation at the landscape-scale has not been assessed to date, nor have the interactions with local economic pressures and biophysical drivers. Here, we assess the relationship between socioeconomic and biophysical variables and mangrove change across coastal geomorphic units worldwide from 1996 to 2016. Globally, we find that drivers of loss can also be drivers of gain, and that drivers have changed over 20 years. The association with economic growth appears to have reversed, shifting from negatively impacting mangroves in the first decade to enabling mangrove expansion in the second decade. Importantly, we find that community forestry is promoting mangrove expansion, whereas conversion to agriculture and aquaculture, often occurring in protected areas, results in high loss. Sustainable development, community forestry, and co-management of protected areas are promising strategies to reverse mangrove losses, increasing the capacity of mangroves to support human-livelihoods and combat climate change., (© 2022. The Author(s).)

Published

2022

20. A global horizon scan of issues impacting marine and coastal biodiversity conservation.

Author

Herbert-Read JE, Thornton A, Amon DJ, Birchenough SNR, Côté IM, Dias MP, Godley BJ, Keith SA, McKinley E, Peck LS, Calado R, Defeo O, Degraer S, Johnston EL, Kaartokallio H, Macreadie PI, Metaxas A, Muthumbi AWN, Obura DO, Paterson DM, Piola AR, Richardson AJ, Schloss IR, Snelgrove PVR, Stewart BD, Thompson PM, Watson GJ, Worthington TA, Yasuhara M, and Sutherland WJ

Subjects

Animals, Climate Change, Humans, Biodiversity, Ecosystem

Abstract

The biodiversity of marine and coastal habitats is experiencing unprecedented change. While there are well-known drivers of these changes, such as overexploitation, climate change and pollution, there are also relatively unknown emerging issues that are poorly understood or recognized that have potentially positive or negative impacts on marine and coastal ecosystems. In this inaugural Marine and Coastal Horizon Scan, we brought together 30 scientists, policymakers and practitioners with transdisciplinary expertise in marine and coastal systems to identify new issues that are likely to have a significant impact on the functioning and conservation of marine and coastal biodiversity over the next 5-10 years. Based on a modified Delphi voting process, the final 15 issues presented were distilled from a list of 75 submitted by participants at the start of the process. These issues are grouped into three categories: ecosystem impacts, for example the impact of wildfires and the effect of poleward migration on equatorial biodiversity; resource exploitation, including an increase in the trade of fish swim bladders and increased exploitation of marine collagens; and new technologies, such as soft robotics and new biodegradable products. Our early identification of these issues and their potential impacts on marine and coastal biodiversity will support scientists, conservationists, resource managers and policymakers to address the challenges facing marine ecosystems., (© 2022. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2022

21. High-resolution mapping of losses and gains of Earth's tidal wetlands.

Author

Murray NJ, Worthington TA, Bunting P, Duce S, Hagger V, Lovelock CE, Lucas R, Saunders MI, Sheaves M, Spalding M, Waltham NJ, and Lyons MB

Subjects

Agriculture, Climate Change, Geographic Mapping, Humans, Wetlands

Abstract

Tidal wetlands are expected to respond dynamically to global environmental change, but the extent to which wetland losses have been offset by gains remains poorly understood. We developed a global analysis of satellite data to simultaneously monitor change in three highly interconnected intertidal ecosystem types-tidal flats, tidal marshes, and mangroves-from 1999 to 2019. Globally, 13,700 square kilometers of tidal wetlands have been lost, but these have been substantially offset by gains of 9700 km 2 , leading to a net change of -4000 km 2 over two decades. We found that 27% of these losses and gains were associated with direct human activities such as conversion to agriculture and restoration of lost wetlands. All other changes were attributed to indirect drivers, including the effects of coastal processes and climate change.

Published

2022

22. Ambitious global targets for mangrove and seagrass recovery.

Author

Buelow CA, Connolly RM, Turschwell MP, Adame MF, Ahmadia GN, Andradi-Brown DA, Bunting P, Canty SWJ, Dunic JC, Friess DA, Lee SY, Lovelock CE, McClure EC, Pearson RM, Sievers M, Sousa AI, Worthington TA, and Brown CJ

Subjects

Climate, Conservation of Natural Resources, Ecosystem, Wetlands

Abstract

There is an urgent need to halt and reverse loss of mangroves and seagrass to protect and increase the ecosystem services they provide to coastal communities, such as enhancing coastal resilience and contributing to climate stability. 1 , 2 Ambitious targets for their recovery can inspire public and private investment in conservation, 3 but the expected outcomes of different protection and restoration strategies are unclear. We estimated potential recovery of mangroves and seagrass through gains in ecosystem extent to the year 2070 under a range of protection and restoration strategies implemented until the year 2050. Under a protection-only scenario, the current trajectories of net mangrove loss slowed, and a minor net gain in global seagrass extent (∼1%) was estimated. Protection alone is therefore unlikely to drive sufficient recovery. However, if action is taken to both protect and restore, net gains of up to 5% and 35% of mangroves and seagrasses, respectively, could be achieved by 2050. Further, protection and restoration can be complementary, as protection prevents losses that would otherwise occur post-2050, highlighting the importance of implementing protection measures. Our findings provide the scientific evidence required for setting strategic and ambitious targets to inspire significant global investment and effort in mangrove and seagrass conservation., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

23. The scale of Nigeria's involvement in the trans-national illegal pangolin trade: Temporal and spatial patterns and the effectiveness of wildlife trade regulations.

Author

Emogor CA, Ingram DJ, Coad L, Worthington TA, Dunn A, Imong I, and Balmford A

Abstract

The Convention on International Trade in Endangered Species of Wild Fauna and Flora (CITES) prohibits commercial trans-national trade in pangolin specimens. However, African pangolins are continually trafficked to Asia for traditional medicine, with Nigeria considered a key hub. Using reported Nigeria-linked pangolin seizure data and interviews with Nigerian law enforcement officials, we a) characterised Nigeria's involvement in global pangolin trafficking January 2010-September 2021, particularly observing trafficking trends after pangolin's CITES Appendix I listing; b) estimated the minimum number of pangolins whose scales are in Nigeria-linked seizures January 2010-September 2021, and; c) assessed ongoing efforts within Nigeria to curb pangolin trafficking. Nigeria-linked seizures involved 190,407 kg of pangolin derivatives (99.9% scales) from a minimum of 799,343 pangolins (95% confidence interval; 625,944-996,353) of four species (see caveats in Methods). All shipments confiscated in transit were destined for Asia, with a rapid increase in the mass of maritime shipments over time. Furthermore, stockpiling of pangolin derivatives for overseas shipment is perhaps a prominent trafficking model in Nigeria. Nigeria's law enforcement efforts improved from 2017, the same year Nigeria apparently began playing a hub role. The impact of pangolin's CITES Appendix I listing on pangolin trafficking was unclear, as the marked rise in seizures from 2017 when the listing became effective, coincided with improvements in Nigerian law enforcement efforts. COVID-19-induced travel restrictions likely reduced trafficking activities in 2020 but activities may have fully resumed in 2021. This study provides new information to inform effective enforcement and policy formulation efforts to protect African pangolins., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2021 The Authors.)

Published

2021

24. Upscaling tropical restoration to deliver environmental benefits and socially equitable outcomes.

Author

Edwards DP, Cerullo GR, Chomba S, Worthington TA, Balmford AP, Chazdon RL, and Harrison RD

Subjects

Agriculture, Biodiversity, Forests, Conservation of Natural Resources, Ecosystem

Abstract

The UN Decade on Ecosystem Restoration offers immense potential to return hundreds of millions of hectares of degraded tropical landscapes to functioning ecosystems. Well-designed restoration can tackle multiple Sustainable Development Goals, driving synergistic benefits for biodiversity, ecosystem services, agricultural and timber production, and local livelihoods at large spatial scales. To deliver on this potential, restoration efforts must recognise and reduce trade-offs among objectives, and minimize competition with food production and conservation of native ecosystems. Restoration initiatives also need to confront core environmental challenges of climate change and inappropriate planting in savanna biomes, be robustly funded over the long term, and address issues of poor governance, inadequate land tenure, and socio-cultural disparities in benefits and costs. Tackling these issues using the landscape approach is vital to realising the potential for restoration to break the cycle of land degradation and poverty, and deliver on its core environmental and social promises., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2021

25. A global biophysical typology of mangroves and its relevance for ecosystem structure and deforestation.

Author

Worthington TA, Zu Ermgassen PSE, Friess DA, Krauss KW, Lovelock CE, Thorley J, Tingey R, Woodroffe CD, Bunting P, Cormier N, Lagomasino D, Lucas R, Murray NJ, Sutherland WJ, and Spalding M

Subjects

Biomass, Carbon analysis, Carbonates analysis, Climate Change, Geologic Sediments chemistry, Soil chemistry, Conservation of Natural Resources, Wetlands

Abstract

Mangrove forests provide many ecosystem services but are among the world's most threatened ecosystems. Mangroves vary substantially according to their geomorphic and sedimentary setting; while several conceptual frameworks describe these settings, their spatial distribution has not been quantified. Here, we present a new global mangrove biophysical typology and show that, based on their 2016 extent, 40.5% (54,972 km 2 ) of mangrove systems were deltaic, 27.5% (37,411 km 2 ) were estuarine and 21.0% (28,493 km 2 ) were open coast, with lagoonal mangroves the least abundant (11.0%, 14,993 km 2 ). Mangroves were also classified based on their sedimentary setting, with carbonate mangroves being less abundant than terrigenous, representing just 9.6% of global coverage. Our typology provides a basis for future research to incorporate geomorphic and sedimentary setting in analyses. We present two examples of such applications. Firstly, based on change in extent between 1996 and 2016, we show while all types exhibited considerable declines in area, losses of lagoonal mangroves (- 6.9%) were nearly twice that of other types. Secondly, we quantify differences in aboveground biomass between mangroves of different types, with it being significantly lower in lagoonal mangroves. Overall, our biophysical typology provides a baseline for assessing restoration potential and for quantifying mangrove ecosystem service provision.

Published

2020

26. Mangrove blue carbon stocks and dynamics are controlled by hydrogeomorphic settings and land-use change.

Author

Sasmito SD, Sillanpää M, Hayes MA, Bachri S, Saragi-Sasmito MF, Sidik F, Hanggara BB, Mofu WY, Rumbiak VI, Hendri, Taberima S, Suhaemi, Nugroho JD, Pattiasina TF, Widagti N, Barakalla, Rahajoe JS, Hartantri H, Nikijuluw V, Jowey RN, Heatubun CD, Zu Ermgassen P, Worthington TA, Howard J, Lovelock CE, Friess DA, Hutley LB, and Murdiyarso D

Subjects

Biomass, Conservation of Natural Resources, Forests, Indonesia, Wetlands, Carbon, Ecosystem

Abstract

Globally, carbon-rich mangrove forests are deforested and degraded due to land-use and land-cover change (LULCC). The impact of mangrove deforestation on carbon emissions has been reported on a global scale; however, uncertainty remains at subnational scales due to geographical variability and field data limitations. We present an assessment of blue carbon storage at five mangrove sites across West Papua Province, Indonesia, a region that supports 10% of the world's mangrove area. The sites are representative of contrasting hydrogeomorphic settings and also capture change over a 25-years LULCC chronosequence. Field-based assessments were conducted across 255 plots covering undisturbed and LULCC-affected mangroves (0-, 5-, 10-, 15- and 25-year-old post-harvest or regenerating forests as well as 15-year-old aquaculture ponds). Undisturbed mangroves stored total ecosystem carbon stocks of 182-2,730 (mean ± SD: 1,087 ± 584) Mg C/ha, with the large variation driven by hydrogeomorphic settings. The highest carbon stocks were found in estuarine interior (EI) mangroves, followed by open coast interior, open coast fringe and EI forests. Forest harvesting did not significantly affect soil carbon stocks, despite an elevated dead wood density relative to undisturbed forests, but it did remove nearly all live biomass. Aquaculture conversion removed 60% of soil carbon stock and 85% of live biomass carbon stock, relative to reference sites. By contrast, mangroves left to regenerate for more than 25 years reached the same level of biomass carbon compared to undisturbed forests, with annual biomass accumulation rates of 3.6 ± 1.1 Mg C ha -1  year -1 . This study shows that hydrogeomorphic setting controls natural dynamics of mangrove blue carbon stocks, while long-term land-use changes affect carbon loss and gain to a substantial degree. Therefore, current land-based climate policies must incorporate landscape and land-use characteristics, and their related carbon management consequences, for more effective emissions reduction targets and restoration outcomes., (© 2020 The Authors. Global Change Biology published by John Wiley & Sons Ltd.)

Published

2020

27. Worldwide insect declines: An important message, but interpret with caution.

Author

Simmons BI, Balmford A, Bladon AJ, Christie AP, De Palma A, Dicks LV, Gallego-Zamorano J, Johnston A, Martin PA, Purvis A, Rocha R, Wauchope HS, Wordley CFR, Worthington TA, and Finch T

Abstract

A recent paper claiming evidence of global insect declines achieved huge media attention, including claims of "insectaggedon" and a "collapse of nature." Here, we argue that while many insects are declining in many places around the world, the study has important limitations that should be highlighted. We emphasise the robust evidence of large and rapid insect declines present in the literature, while also highlighting the limitations of the original study., Competing Interests: Authors have no competing interests to declare

Published

2019

28. Effects of Water Loss on New Mexico Spadefoot Toad (Spea multiplicata) Development, Spleen Cellularity, and Corticosterone Levels.

Author

Bagwill AL, Lovern MB, Worthington TA, Smith LM, and McMurry ST

Subjects

Animals, Anura physiology, Corticosterone analysis, Female, Immune System, Male, Organ Size, Spleen growth & development, Anura growth & development, Metamorphosis, Biological, Spleen anatomy & histology, Stress, Physiological, Water

Abstract

Amphibian metamorphosis is complex and larval morphology and physiology are completely restructured during this time. Amphibians that live in unpredictable environments are often exposed to stressors that can directly and indirectly alter physiological systems during development, with subsequent consequences (carryover effects) later in life. In this study, we investigated the effects of water level reduction on development rate, spleen size and cellularity, and examined the role of corticosterone levels in premetamorphic, metamorphic, and postmetamorphic New Mexico spadefoot toads (Spea multiplicata). Based on previous studies, we hypothesized that declining water level would increase tadpole developmental rate, but with the trade-off of increasing corticosterone to a level that would subsequently affect spleen size and cellularity, thus prolonging potential immunological suppression. Declining water levels increased developmental rate by 3 days; however, there were no significant body size effects. Corticosterone (CORT) was negatively correlated with total length, snout vent length, body weight, and spleen weight at metamorphosis, suggesting that size at metamorphosis and the immune system may be affected by excessive CORT levels. When compared to other studies, our results support the view that multiple factors may be acting as stressors in the field affecting amphibian responses, and simple pathways as tested in this study may not adequately represent field conditions., (© 2016 Wiley Periodicals, Inc.)

Published

2016

29. Advancing Environmental Flow Science: Developing Frameworks for Altered Landscapes and Integrating Efforts Across Disciplines.

Author

Brewer SK, McManamay RA, Miller AD, Mollenhauer R, Worthington TA, and Arsuffi T

Subjects

Ecology trends, Introduced Species trends, Water Quality, Conservation of Natural Resources economics, Conservation of Natural Resources legislation & jurisprudence, Conservation of Natural Resources methods, Ecology standards, Water Movements, Water Resources supply & distribution

Abstract

Environmental flows represent a legal mechanism to balance existing and future water uses and sustain non-use values. Here, we identify current challenges, provide examples where they are important, and suggest research advances that would benefit environmental flow science. Specifically, environmental flow science would benefit by (1) developing approaches to address streamflow needs in highly modified landscapes where historic flows do not provide reasonable comparisons, (2) integrating water quality needs where interactions are apparent with quantity but not necessarily the proximate factor of the ecological degradation, especially as frequency and magnitudes of inflows to bays and estuaries, (3) providing a better understanding of the ecological needs of native species to offset the often unintended consequences of benefiting non-native species or their impact on flows, (4) improving our understanding of the non-use economic value to balance consumptive economic values, and (5) increasing our understanding of the stakeholder socioeconomic spatial distribution of attitudes and perceptions across the landscape. Environmental flow science is still an emerging interdisciplinary field and by integrating socioeconomic disciplines and developing new frameworks to accommodate our altered landscapes, we should help advance environmental flow science and likely increase successful implementation of flow standards.

Published

2016

30. Interacting effects of discharge and channel morphology on transport of semibuoyant fish eggs in large, altered river systems.

Author

Worthington TA, Brewer SK, Farless N, Grabowski TB, and Gregory MS

Subjects

Animals, Canada, Ecosystem, Eggs, Fresh Water, Rivers, Biota physiology, Fishes physiology

Abstract

Habitat fragmentation and flow regulation are significant factors related to the decline and extinction of freshwater biota. Pelagic-broadcast spawning cyprinids require moving water and some length of unfragmented stream to complete their life cycle. However, it is unknown how discharge and habitat features interact at multiple spatial scales to alter the transport of semi-buoyant fish eggs. Our objective was to assess the relationship between downstream drift of semi-buoyant egg surrogates (gellan beads) and discharge and habitat complexity. We quantified transport time of a known quantity of beads using 2-3 sampling devices at each of seven locations on the North Canadian and Canadian rivers. Transport time was assessed based on median capture time (time at which 50% of beads were captured) and sampling period (time period when 2.5% and 97.5% of beads were captured). Habitat complexity was assessed by calculating width∶depth ratios at each site, and several habitat metrics determined using analyses of aerial photographs. Median time of egg capture was negatively correlated to site discharge. The temporal extent of the sampling period at each site was negatively correlated to both site discharge and habitat-patch dispersion. Our results highlight the role of discharge in driving transport times, but also indicate that higher dispersion of habitat patches relates to increased retention of beads within the river. These results could be used to target restoration activities or prioritize water use to create and maintain habitat complexity within large, fragmented river systems.

Published

2014

31. Backcasting the decline of a vulnerable Great Plains reproductive ecotype: identifying threats and conservation priorities.

Author

Worthington TA, Brewer SK, Grabowski TB, and Mueller J

Subjects

Animals, Conservation of Natural Resources, Ecotype, Midwestern United States, Population Dynamics, Reproduction, Rivers, Southwestern United States, Cyprinidae, Models, Theoretical

Abstract

Conservation efforts for threatened or endangered species are challenging because the multi-scale factors that relate to their decline or inhibit their recovery are often unknown. To further exacerbate matters, the perceptions associated with the mechanisms of species decline are often viewed myopically rather than across the entire species range. We used over 80 years of fish presence data collected from the Great Plains and associated ecoregions of the United States, to investigate the relative influence of changing environmental factors on the historic and current truncated distributions of the Arkansas River shiner Notropis girardi. Arkansas River shiner represent a threatened reproductive ecotype considered especially well adapted to the harsh environmental extremes of the Great Plains. Historic (n = 163 records) and current (n = 47 records) species distribution models were constructed using a vector-based approach in MaxEnt by splitting the available data at a time when Arkansas River shiner dramatically declined. Discharge and stream order were significant predictors in both models; however, the shape of the relationship between the predictors and species presence varied between time periods. Drift distance (river fragment length available for ichthyoplankton downstream drift before meeting a barrier) was a more important predictor in the current model and indicated river segments 375-780 km had the highest probability of species presence. Performance for the historic and current models was high (area under the curve; AUC > 0.95); however, forecasting and backcasting to alternative time periods suggested less predictive power. Our results identify fragments that could be considered refuges for endemic plains fish species and we highlight significant environmental factors (e.g., discharge) that could be manipulated to aid recovery., (Published 2013. This article is a U.S. Government work and is in the public domain in the U.S.A.)

Published

2014