68 results on '"Altieri AH"'
Search Results
2. Exposure to boat noise in the field yields minimal stress response in wild reef fish
- Author
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Staaterman, E, Gallagher, AJ, Holder, PE, Reid, CH, Altieri, AH, Ogburn, MB, Rummer, JL, and Cooke, SJ
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Biology (General) ,QH301-705.5 ,Microbiology ,QR1-502 - Abstract
Aquatic anthropogenic noise is on the rise, with growing concern about its impact on species that are sensitive to low-frequency sounds (e.g. most fish and invertebrates). We investigated whether the reef fish Halichoeres bivittatus living in both noisy and quiet areas had differing levels of baseline stress (measured as whole-body cortisol) and whether they would exhibit a physiological stress response when exposed to boat noise playbacks. While the playback experiments significantly increased cortisol levels in fish from our experiment compared to baseline levels, there were minimal pairwise differences across treatments and no difference in baseline stress for fish living in noisy vs. quiet areas. These results may be explained by low overall auditory sensitivity, habituation to a fairly noisy environment (due to biological sounds), or that boat noise simply may not represent an immediate threat to survival in this species. These findings contrast recent studies that have shown elevated stress responses in fishes when exposed to boat noise and highlights that inter-specific differences must be considered when evaluating potential impacts of anthropogenic noise on marine life.
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- 2020
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3. Heterogeneity within and among co-occurring foundation species increases biodiversity
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Thomsen, MS, Altieri, AH, Angelini, C, Bishop, MJ, Bulleri, F, Farhan, R, Fruhling, VMM, Gribben, PE, Harrison, SB, He, Q, Klinghardt, M, Langeneck, J, Lanham, BS, Mondardini, L, Mulders, Y, Oleksyn, S, Ramus, AP, Schiel, DR, Schneider, T, Siciliano, A, Silliman, BR, Smale, DA, South, PM, Wernberg, T, Zhang, S, Zotz, G, Thomsen, MS, Altieri, AH, Angelini, C, Bishop, MJ, Bulleri, F, Farhan, R, Fruhling, VMM, Gribben, PE, Harrison, SB, He, Q, Klinghardt, M, Langeneck, J, Lanham, BS, Mondardini, L, Mulders, Y, Oleksyn, S, Ramus, AP, Schiel, DR, Schneider, T, Siciliano, A, Silliman, BR, Smale, DA, South, PM, Wernberg, T, Zhang, S, and Zotz, G
- Abstract
Habitat heterogeneity is considered a primary causal driver underpinning patterns of diversity, yet the universal role of heterogeneity in structuring biodiversity is unclear due to a lack of coordinated experiments testing its effects across geographic scales and habitat types. Furthermore, key species interactions that can enhance heterogeneity, such as facilitation cascades of foundation species, have been largely overlooked in general biodiversity models. Here, we performed 22 geographically distributed experiments in different ecosystems and biogeographical regions to assess the extent to which variation in biodiversity is explained by three axes of habitat heterogeneity: the amount of habitat, its morphological complexity, and capacity to provide ecological resources (e.g. food) within and between co-occurring foundation species. We show that positive and additive effects across the three axes of heterogeneity are common, providing a compelling mechanistic insight into the universal importance of habitat heterogeneity in promoting biodiversity via cascades of facilitative interactions. Because many aspects of habitat heterogeneity can be controlled through restoration and management interventions, our findings are directly relevant to biodiversity conservation.
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- 2022
4. Heterogeneity within and among co-occurring foundation species increases biodiversity (vol 13, 581, 2022)
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Thomsen, MS, Altieri, AH, Angelini, C, Bishop, MJ, Bulleri, F, Farhan, R, Fruhling, VMM, Gribben, PE, Harrison, SB, He, Q, Klinghardt, M, Langeneck, J, Lanham, BS, Mondardini, L, Mulders, Y, Oleksyn, S, Ramus, AP, Schiel, DR, Schneider, T, Siciliano, A, Silliman, BR, Smale, DA, South, PM, Wernberg, T, Zhang, S, Zotz, G, Thomsen, MS, Altieri, AH, Angelini, C, Bishop, MJ, Bulleri, F, Farhan, R, Fruhling, VMM, Gribben, PE, Harrison, SB, He, Q, Klinghardt, M, Langeneck, J, Lanham, BS, Mondardini, L, Mulders, Y, Oleksyn, S, Ramus, AP, Schiel, DR, Schneider, T, Siciliano, A, Silliman, BR, Smale, DA, South, PM, Wernberg, T, Zhang, S, and Zotz, G
- Published
- 2022
5. Epibiont community composition of red mangroves Rhizophora mangle are contingent on root characteristics
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Stewart, HA, primary, Janiak, DS, additional, Wright, JL, additional, Hunt, DAGA, additional, Carmona Cortes, A, additional, Powell, KT, additional, Chapman, LJ, additional, and Altieri, AH, additional
- Published
- 2022
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6. Secondary foundation species enhance biodiversity
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Thomsen, MS, Altieri, AH, Angelini, C, Bishop, MJ, Gribben, PE, Lear, G, He, Q, Schiel, DR, Silliman, BR, South, PM, Watson, DM, Wernberg, T, Zotz, G, Thomsen, MS, Altieri, AH, Angelini, C, Bishop, MJ, Gribben, PE, Lear, G, He, Q, Schiel, DR, Silliman, BR, South, PM, Watson, DM, Wernberg, T, and Zotz, G
- Abstract
It has long been recognized that primary foundation species (FS), such as trees and seagrasses, enhance biodiversity. Among the species facilitated are secondary FS, including mistletoes and epiphytes. Case studies have demonstrated that secondary FS can further modify habitat-associated organisms ('inhabitants'), but their net effects remain unknown. Here we assess how inhabitants, globally, are affected by secondary FS. We extracted and calculated 2,187 abundance and 397 richness Hedges' g effect sizes from 91 and 50 publications, respectively. A weighted meta-analysis revealed that secondary FS significantly enhanced the abundance and richness of inhabitants compared to the primary FS alone. This indirect facilitation arising through sequential habitat formation was consistent across environmental and experimental conditions. Complementary unweighted analyses on log response ratios revealed that the magnitude of these effects was similar to the global average strength of direct facilitation from primary foundation species and greater than the average strength of trophic cascades, a widely recognized type of indirect facilitation arising through sequential consumption. The finding that secondary FS enhance the abundance and richness of inhabitants has important implications for understanding the mechanisms that regulate biodiversity. Integrating secondary FS into conservation practice will improve our ability to protect biodiversity and ecosystem function.
- Published
- 2018
7. Predicting the reef acoustic cuescape from the perspective of larval fishes across a habitat quality gradient
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Salas, AK, primary, Altieri, AH, additional, Wilson, PS, additional, and Keitt, TH, additional
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- 2018
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8. Contrasting behavioral responses to predatory risk cues reflect different foraging strategies in two Caribbean sea urchins
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Dunn, RP, primary, Altieri, AH, additional, Miller, K, additional, Yeager, ME, additional, and Hovel, KA, additional
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- 2018
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9. Bioacoustic measurements complement visual biodiversity surveys: preliminary evidence from four shallow marine habitats
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Staaterman, E, primary, Ogburn, MB, additional, Altieri, AH, additional, Brandl, SJ, additional, Whippo, R, additional, Seemann, J, additional, Goodison, M, additional, and Duffy, JE, additional
- Published
- 2017
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10. Uncertain future of New England salt marshes
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Gedan, KB, primary, Altieri, AH, additional, and Bertness, MD, additional
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- 2011
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11. Distinct habitat types arise along a continuous hydrodynamic stress gradient due to interplay of competition and facilitation
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van Wesenbeeck, BK, primary, Crain, CM, additional, Altieri, AH, additional, and Bertness, MD, additional
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- 2007
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12. Inducible variation in hypoxia tolerance across the intertidalsubtidal distribution of the blue mussel Mytilus edulis
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Altieri, AH, primary
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- 2006
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13. Influence of biogenic habitat on the recruitment and distribution of a subtidal xanthid crab
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Lindsey, EL, primary, Altieri, AH, additional, and Witman, JD, additional
- Published
- 2006
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14. Coral Community Composition Linked to Hypoxia Exposure.
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Lucey NM, César-Ávila C, Eckert A, Rajagopalan A, Brister WC, Kline E, Altieri AH, Deutsch CA, and Collin R
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- Animals, Caribbean Region, Biodiversity, Coral Bleaching, Anthozoa physiology, Coral Reefs, Oxygen analysis, Oxygen metabolism
- Abstract
Tropical reef ecosystems are strongly influenced by the composition of coral species, but the factors influencing coral diversity and distributions are not fully understood. Here we demonstrate that large variations in the relative abundance of three major coral species across adjacent Caribbean reef sites are strongly related to their different low O
2 tolerances. In laboratory experiments designed to mimic reef conditions, the cumulative effect of repeated nightly low O2 drove coral bleaching and mortality, with limited modulation by temperature. After four nights of repeated low O2 , species responses also varied widely, from > 50% bleaching in Acropora cervicornis to no discernable sensitivity of Porites furcata. A simple metric of hypoxic pressure that combines these experimentally derived species sensitivities with high-resolution field data accurately predicts the observed relative abundance of species across three reefs. Only the well-oxygenated reef supported the framework-building hypoxia-sensitive Acropora cervicornis, while the hypoxia-tolerant weedy species Porites furcata was dominant on the most frequently O2 -deplete reef. Physiological exclusion of acroporids from these O2 -deplete reefs underscores the need for hypoxia management to reduce extirpation risk., (© 2024 The Author(s). Global Change Biology published by John Wiley & Sons Ltd.)- Published
- 2024
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15. Harnessing ecological theory to enhance ecosystem restoration.
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Silliman BR, Hensel MJS, Gibert JP, Daleo P, Smith CS, Wieczynski DJ, Angelini C, Paxton AB, Adler AM, Zhang YS, Altieri AH, Palmer TM, Jones HP, Gittman RK, Griffin JN, O'Connor MI, van de Koppel J, Poulsen JR, Rietkerk M, He Q, Bertness MD, van der Heide T, and Valdez SR
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- Ecology methods, Environmental Restoration and Remediation methods, Biodiversity, Climate Change, Conservation of Natural Resources methods, Ecosystem
- Abstract
Ecosystem restoration can increase the health and resilience of nature and humanity. As a result, the international community is championing habitat restoration as a primary solution to address the dual climate and biodiversity crises. Yet most ecosystem restoration efforts to date have underperformed, failed, or been burdened by high costs that prevent upscaling. To become a primary, scalable conservation strategy, restoration efficiency and success must increase dramatically. Here, we outline how integrating ten foundational ecological theories that have not previously received much attention - from hierarchical facilitation to macroecology - into ecosystem restoration planning and management can markedly enhance restoration success. We propose a simple, systematic approach to determining which theories best align with restoration goals and are most likely to bolster their success. Armed with a century of advances in ecological theory, restoration practitioners will be better positioned to more cost-efficiently and effectively rebuild the world's ecosystems and support the resilience of our natural resources., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 Elsevier Inc. All rights reserved.)
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- 2024
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16. Stony coral tissue loss disease indirectly alters reef communities.
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Swaminathan SD, Lafferty KD, Knight NS, and Altieri AH
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- Animals, Caribbean Region, Fishes, Ecosystem, Coral Reefs, Anthozoa physiology
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Many Caribbean coral reefs are near collapse due to various threats. An emerging threat, stony coral tissue loss disease (SCTLD), is spreading across the Western Atlantic and Caribbean. Data from the U.S. Virgin Islands reveal how SCTLD spread has reduced the abundance of susceptible coral and crustose coralline algae and increased cyanobacteria, fire coral, and macroalgae. A Caribbean-wide structural equation model demonstrates versatility in reef fish and associations with rugosity independent of live coral. Model projections suggest that some reef fishes will decline due to SCTLD, with the largest changes on reefs that lose the most susceptible corals and rugosity. Mapping these projected declines in space indicates how the indirect effects of SCTLD range from undetectable to devastating.
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- 2024
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17. Herbivore effects increase with latitude across the extent of a foundational seagrass.
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Campbell JE, Kennedy Rhoades O, Munson CJ, Altieri AH, Douglass JG, Heck KL, Paul VJ, Armitage AR, Barry SC, Bethel E, Christ L, Christianen MJA, Dodillet G, Dutton K, Fourqurean JW, Frazer TK, Gaffey BM, Glazner R, Goeke JA, Grana-Valdes R, Jenkins VJ, Kramer OAA, Linhardt ST, Martin CW, Martinez Lopez IG, McDonald AM, Main VA, Manuel SA, Marco-Méndez C, O'Brien DA, O'Shea OR, Patrick CJ, Peabody C, Reynolds LK, Rodriguez A, Rodriguez Bravo LM, Sang A, Sawall Y, Smith K, Smulders FOH, Sun U, Thompson JE, van Tussenbroek B, and Wied WL
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- Food Chain, Forests, Climate Change, Plants, Ecosystem, Herbivory
- Abstract
Climate change is altering the functioning of foundational ecosystems. While the direct effects of warming are expected to influence individual species, the indirect effects of warming on species interactions remain poorly understood. In marine systems, as tropical herbivores undergo poleward range expansion, they may change food web structure and alter the functioning of key habitats. While this process ('tropicalization') has been documented within declining kelp forests, we have a limited understanding of how this process might unfold across other systems. Here we use a network of sites spanning 23° of latitude to explore the effects of increased herbivory (simulated via leaf clipping) on the structure of a foundational marine plant (turtlegrass). By working across its geographic range, we also show how gradients in light, temperature and nutrients modified plant responses. We found that turtlegrass near its northern boundary was increasingly affected (reduced productivity) by herbivory and that this response was driven by latitudinal gradients in light (low insolation at high latitudes). By contrast, low-latitude meadows tolerated herbivory due to high insolation which enhanced plant carbohydrates. We show that as herbivores undergo range expansion, turtlegrass meadows at their northern limit display reduced resilience and may be under threat of ecological collapse., (© 2024. The Author(s), under exclusive licence to Springer Nature Limited.)
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- 2024
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18. Dead foundation species drive ecosystem dynamics.
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Saldaña PH, Angelini C, Bertness MD, and Altieri AH
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- Forecasting, Ecosystem, Biodiversity
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Foundation species facilitate communities, modulate energy flow, and define ecosystems, but their ecological roles after death are frequently overlooked. Here, we reveal the widespread importance of their dead structures as unique, interacting components of ecosystems that are vulnerable to global change. Key metabolic activity, mobility, and morphology traits of foundation species either change or persist after death with important consequences for ecosystem functions, biodiversity, and subsidy dynamics. Dead foundation species frequently mediate ecosystem stability, resilience, and transitions, often through feedbacks, and harnessing their structural and trophic roles can improve restoration outcomes. Enhanced recognition of dead foundation species and their incorporation into habitat monitoring, ecological theory, and ecosystem forecasting can help solve the escalating conservation challenges of the Anthropocene., Competing Interests: Declaration of interests No interests are declared., (Copyright © 2023 Elsevier Ltd. All rights reserved.)
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- 2024
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19. Microbiomes of Thalassia testudinum throughout the Atlantic Ocean, Caribbean Sea, and Gulf of Mexico are influenced by site and region while maintaining a core microbiome.
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Ugarelli K, Campbell JE, Rhoades OK, Munson CJ, Altieri AH, Douglass JG, Heck KL Jr, Paul VJ, Barry SC, Christ L, Fourqurean JW, Frazer TK, Linhardt ST, Martin CW, McDonald AM, Main VA, Manuel SA, Marco-Méndez C, Reynolds LK, Rodriguez A, Rodriguez Bravo LM, Sawall Y, Smith K, Wied WL, Choi CJ, and Stingl U
- Abstract
Plant microbiomes are known to serve several important functions for their host, and it is therefore important to understand their composition as well as the factors that may influence these microbial communities. The microbiome of Thalassia testudinum has only recently been explored, and studies to-date have primarily focused on characterizing the microbiome of plants in a single region. Here, we present the first characterization of the composition of the microbial communities of T. testudinum across a wide geographical range spanning three distinct regions with varying physicochemical conditions. We collected samples of leaves, roots, sediment, and water from six sites throughout the Atlantic Ocean, Caribbean Sea, and the Gulf of Mexico. We then analyzed these samples using 16S rRNA amplicon sequencing. We found that site and region can influence the microbial communities of T. testudinum , while maintaining a plant-associated core microbiome. A comprehensive comparison of available microbial community data from T. testudinum studies determined a core microbiome composed of 14 ASVs that consisted mostly of the family Rhodobacteraceae. The most abundant genera in the microbial communities included organisms with possible plant-beneficial functions, like plant-growth promoting taxa, disease suppressing taxa, and nitrogen fixers., Competing Interests: LC and VM were employed by International Field Studies, Inc. The remaining 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. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2024 Ugarelli, Campbell, Rhoades, Munson, Altieri, Douglass, Heck, Paul, Barry, Christ, Fourqurean, Frazer, Linhardt, Martin, McDonald, Main, Manuel, Marco-Méndez, Reynolds, Rodriguez, Rodriguez Bravo, Sawall, Smith, Wied, Choi and Stingl.)
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- 2024
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20. Shifts in the coral microbiome in response to in situ experimental deoxygenation.
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Howard RD, Schul MD, Rodriguez Bravo LM, Altieri AH, and Meyer JL
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- Humans, Animals, Coral Reefs, Bacteria genetics, Hypoxia, Anthozoa microbiology, Microbiota
- Abstract
Importance: Marine hypoxia is a threat for corals but has remained understudied in tropical regions where coral reefs are abundant. Though microbial symbioses can alleviate the effects of ecological stress, we do not yet understand the taxonomic or functional response of the coral microbiome to hypoxia. In this study, we experimentally lowered oxygen levels around Siderastrea siderea and Agaricia lamarcki colonies in situ to observe changes in the coral microbiome in response to deoxygenation. Our results show that hypoxia triggers a stochastic change of the microbiome overall, with some bacterial families changing deterministically after just 48 hours of exposure. These families represent an increase in anaerobic and opportunistic taxa in the microbiomes of both coral species. Thus, marine deoxygenation destabilizes the coral microbiome and increases bacterial opportunism. This work provides novel and fundamental knowledge of the microbial response in coral during hypoxia and may provide insight into holobiont function during stress., Competing Interests: The authors declare no conflict of interest.
- Published
- 2023
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21. Herbivory limits success of vegetation restoration globally.
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Xu C, Silliman BR, Chen J, Li X, Thomsen MS, Zhang Q, Lee J, Lefcheck JS, Daleo P, Hughes BB, Jones HP, Wang R, Wang S, Smith CS, Xi X, Altieri AH, van de Koppel J, Palmer TM, Liu L, Wu J, Li B, and He Q
- Subjects
- Biodiversity, Herbivory, Plants, Environmental Restoration and Remediation
- Abstract
Restoring vegetation in degraded ecosystems is an increasingly common practice for promoting biodiversity and ecological function, but successful implementation is hampered by an incomplete understanding of the processes that limit restoration success. By synthesizing terrestrial and aquatic studies globally (2594 experimental tests from 610 articles), we reveal substantial herbivore control of vegetation under restoration. Herbivores at restoration sites reduced vegetation abundance more strongly (by 89%, on average) than those at relatively undegraded sites and suppressed, rather than fostered, plant diversity. These effects were particularly pronounced in regions with higher temperatures and lower precipitation. Excluding targeted herbivores temporarily or introducing their predators improved restoration by magnitudes similar to or greater than those achieved by managing plant competition or facilitation. Thus, managing herbivory is a promising strategy for enhancing vegetation restoration efforts.
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- 2023
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22. A wide megafauna gap undermines China's expanding coastal ecosystem conservation.
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Li X, Wang H, McCauley DJ, Altieri AH, Silliman BR, Lefcheck JS, Wu J, Li B, and He Q
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- Animals, Birds, Reptiles, Mammals, China, Ecosystem, Conservation of Natural Resources
- Abstract
To fulfill sustainable development goals, many countries are expanding efforts to conserve ecologically and societally critical coastal ecosystems. Although megafauna profoundly affect the functioning of ecosystems, they are neglected as a key component in the conservation scheme for coastal ecosystems in many geographic contexts. We reveal a rich diversity of extant megafauna associated with all major types of coastal ecosystems in China, including 218 species of mammals, birds, reptiles, cephalopods, and fish across terrestrial and marine environments. However, 44% of these species are globally threatened, and 78% have not yet been assessed in China for extinction risk. More worrisome, 73% of these megafauna have not been designated as nationally protected species, and <10% of their most important habitats are protected. Filling this wide "megafauna gap" in China and globally would be a leading step as humanity strives to thrive with coastal ecosystems.
- Published
- 2023
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23. Negative effects of a zoanthid competitor limit coral calcification more than ocean acidification.
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Doucette VE, Rodriguez Bravo LM, Altieri AH, and Johnson MD
- Abstract
Ocean acidification (OA) threatens the persistence of reef-building corals and the habitat they provide. While species-specific effects of OA on marine organisms could have cascading effects on ecological interactions like competition, few studies have identified how benthic reef competitors respond to OA. We explored how two common Caribbean competitors, branching Porites and a colonial zoanthid ( Zoanthus ), respond to the factorial combination of OA and competition. In the laboratory, we exposed corals, zoanthids and interacting corals and zoanthids to ambient (8.01 ± 0.03) and OA (7.68 ± 0.07) conditions for 60 days. The OA treatment had no measured effect on zoanthids or coral calcification but decreased Porites maximum PSII efficiency. Conversely, the competitive interaction significantly decreased Porites calcification but had minimal-to-no countereffects on the zoanthid. Although this interaction was not exacerbated by the 60-day OA exposure, environmental changes that enhance zoanthid performance could add to the dominance of zoanthids over corals. The lack of effects of OA on coral calcification indicates that near-term competitive interactions may have more immediate consequences for some corals than future global change scenarios. Disparate consequences of competition have implications for community structure and should be accounted for when evaluating local coral reef trajectories., (© 2022 The Authors.)
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- 2022
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24. The gut microbiome variability of a butterflyfish increases on severely degraded Caribbean reefs.
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Clever F, Sourisse JM, Preziosi RF, Eisen JA, Guerra ECR, Scott JJ, Wilkins LGE, Altieri AH, McMillan WO, and Leray M
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- Animals, Bacteria genetics, Fishes, Anthozoa, Gastrointestinal Microbiome, Microbiota
- Abstract
Environmental degradation has the potential to alter key mutualisms that underlie the structure and function of ecological communities. How microbial communities associated with fishes vary across populations and in relation to habitat characteristics remains largely unknown despite their fundamental roles in host nutrition and immunity. We find significant differences in the gut microbiome composition of a facultative coral-feeding butterflyfish (Chaetodon capistratus) across Caribbean reefs that differ markedly in live coral cover (∼0-30%). Fish gut microbiomes were significantly more variable at degraded reefs, a pattern driven by changes in the relative abundance of the most common taxa potentially associated with stress. We also demonstrate that fish gut microbiomes on severely degraded reefs have a lower abundance of Endozoicomonas and a higher diversity of anaerobic fermentative bacteria, which may suggest a less coral dominated diet. The observed shifts in fish gut bacterial communities across the habitat gradient extend to a small set of potentially beneficial host associated bacteria (i.e., the core microbiome) suggesting essential fish-microbiome interactions may be vulnerable to severe coral degradation., (© 2022. The Author(s).)
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- 2022
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25. Governance and the mangrove commons: Advancing the cross-scale, nested framework for the global conservation and wise use of mangroves.
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Walker JE, Ankersen T, Barchiesi S, Meyer CK, Altieri AH, Osborne TZ, and Angelini C
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- Climate Change, Fisheries, Humans, Wetlands, Conservation of Natural Resources, Ecosystem
- Abstract
Mangroves provide critical ecosystems services, contributing an estimated 42 billion US dollars to global fisheries, storing 25.5 million tons of carbon per year, and providing flood protection to over 15 million people annually. Yet, they are increasingly threatened by factors ranging from local resource exploitation to global climate change, with an estimated 35% of mangrove forests lost in the past two decades. These threats are difficult to manage due to the intrinsic characteristics of mangrove systems and their provisioning services, and their transboundary and pan-global nature. Due to their unique intertidal ecological niche, mangroves are often treated as a "common pool resource" within national legal frameworks, making them particularly susceptible to exploitation. Moreover, they form ecological connections through numerous biotic and abiotic processes that cross political boundaries. Because of these qualities a cross-scale nested framework of international, regional, and local coordination is necessary to successfully sustain mangrove ecosystems and their valuable services. Although coordination across the geopolitical spectrum is often cited as a need for effective management of common resources such as mangroves, there has been no formal analysis of mangrove multiscale governance. In this paper we address this gap by providing a comprehensive analysis of interactions between and within international, regional, and local mangrove management regimes and examine the challenges and opportunities such multiscale governance frameworks present. We highlight Costa Rica as a case study to demonstrate the universal relevance and potential of multi-scale governance and explore its downscale potential. Using Elinor Ostrom's principles for self-governance of the commons as our touchstone, we identify where improvements to the status quo could be implemented to increase its effectiveness of the current frameworks to meet the ongoing challenge of managing mangrove-derived resources and services in the face of a changing climate and human needs., (Copyright © 2022 Elsevier Ltd. All rights reserved.)
- Published
- 2022
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26. Novel coexisting mangrove-coral habitats: Extensive coral communities located deep within mangrove canopies of Panama, a global classification system and predicted distributions.
- Author
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Stewart HA, Wright JL, Carrigan M, Altieri AH, Kline DI, and Araújo RJ
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- Animals, Coral Reefs, Ecosystem, Fishes, Wetlands, Anthozoa
- Abstract
Marine ecosystems are structured by coexisting species occurring in adjacent or nested assemblages. Mangroves and corals are typically observed in adjacent assemblages (i.e., mangrove forests and coral reefs) but are increasingly reported in nested mangrove-coral assemblages with corals living within mangrove habitats. Here we define these nested assemblages as "coexisting mangrove-coral" (CMC) habitats and review the scientific literature to date to formalize a baseline understanding of these ecosystems and create a foundation for future studies. We identify 130 species of corals living within mangrove habitats across 12 locations spanning the Caribbean Sea, Red Sea, Indian Ocean, and South Pacific. We then provide the first description, to our knowledge, of a canopy CMC habitat type located in Bocas del Toro, Panama. This canopy CMC habitat is one of the most coral rich CMC habitats reported in the world, with 34 species of corals growing on and/or among submerged red mangrove aerial roots. Based on our literature review and field data, we identify biotic and abiotic characteristics common to CMC systems to create a classification framework of CMC habitat categories: (1) Lagoon, (2) Inlet, (3) Edge, and (4) Canopy. We then use the compiled data to create a GIS model to suggest where additional CMC habitats may occur globally. In a time where many ecosystems are at risk of disappearing, discovery and description of alternative habitats for species of critical concern are of utmost importance for their conservation and management., Competing Interests: The authors have declared that no competing interests exist.
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- 2022
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27. Predator control of marine communities increases with temperature across 115 degrees of latitude.
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Ashton GV, Freestone AL, Duffy JE, Torchin ME, Sewall BJ, Tracy B, Albano M, Altieri AH, Altvater L, Bastida-Zavala R, Bortolus A, Brante A, Bravo V, Brown N, Buschmann AH, Buskey E, Barrera RC, Cheng B, Collin R, Coutinho R, De Gracia L, Dias GM, DiBacco C, Flores AAV, Haddad MA, Hoffman Z, Erquiaga BI, Janiak D, Campeán AJ, Keith I, Leclerc JC, Lecompte-Pérez OP, Longo GO, Matthews-Cascon H, McKenzie CH, Miller J, Munizaga M, Naval-Xavier LPD, Navarrete SA, Otálora C, Palomino-Alvarez LA, Palomo MG, Patrick C, Pegau C, Pereda SV, Rocha RM, Rumbold C, Sánchez C, Sanjuan-Muñoz A, Schlöder C, Schwindt E, Seemann J, Shanks A, Simoes N, Skinner L, Suárez-Mozo NY, Thiel M, Valdivia N, Velez-Zuazo X, Vieira EA, Vildoso B, Wehrtmann IS, Whalen M, Wilbur L, and Ruiz GM
- Subjects
- Animals, Global Warming, Oceans and Seas, Aquatic Organisms, Biomass, Fishes, Hot Temperature, Invertebrates, Predatory Behavior
- Abstract
Early naturalists suggested that predation intensity increases toward the tropics, affecting fundamental ecological and evolutionary processes by latitude, but empirical support is still limited. Several studies have measured consumption rates across latitude at large scales, with variable results. Moreover, how predation affects prey community composition at such geographic scales remains unknown. Using standardized experiments that spanned 115° of latitude, at 36 nearshore sites along both coasts of the Americas, we found that marine predators have both higher consumption rates and consistently stronger impacts on biomass and species composition of marine invertebrate communities in warmer tropical waters, likely owing to fish predators. Our results provide robust support for a temperature-dependent gradient in interaction strength and have potential implications for how marine ecosystems will respond to ocean warming.
- Published
- 2022
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28. Publisher Correction: Heterogeneity within and among co-occurring foundation species increases biodiversity.
- Author
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Thomsen MS, Altieri AH, Angelini C, Bishop MJ, Bulleri F, Farhan R, Frühling VMM, Gribben PE, Harrison SB, He Q, Klinghardt M, Langeneck J, Lanham BS, Mondardini L, Mulders Y, Oleksyn S, Ramus AP, Schiel DR, Schneider T, Siciliano A, Silliman BR, Smale DA, South PM, Wernberg T, Zhang S, and Zotz G
- Published
- 2022
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- View/download PDF
29. Heterogeneity within and among co-occurring foundation species increases biodiversity.
- Author
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Thomsen MS, Altieri AH, Angelini C, Bishop MJ, Bulleri F, Farhan R, Frühling VMM, Gribben PE, Harrison SB, He Q, Klinghardt M, Langeneck J, Lanham BS, Mondardini L, Mulders Y, Oleksyn S, Ramus AP, Schiel DR, Schneider T, Siciliano A, Silliman BR, Smale DA, South PM, Wernberg T, Zhang S, and Zotz G
- Subjects
- Animals, Geography, Species Specificity, Biodiversity
- Abstract
Habitat heterogeneity is considered a primary causal driver underpinning patterns of diversity, yet the universal role of heterogeneity in structuring biodiversity is unclear due to a lack of coordinated experiments testing its effects across geographic scales and habitat types. Furthermore, key species interactions that can enhance heterogeneity, such as facilitation cascades of foundation species, have been largely overlooked in general biodiversity models. Here, we performed 22 geographically distributed experiments in different ecosystems and biogeographical regions to assess the extent to which variation in biodiversity is explained by three axes of habitat heterogeneity: the amount of habitat, its morphological complexity, and capacity to provide ecological resources (e.g. food) within and between co-occurring foundation species. We show that positive and additive effects across the three axes of heterogeneity are common, providing a compelling mechanistic insight into the universal importance of habitat heterogeneity in promoting biodiversity via cascades of facilitative interactions. Because many aspects of habitat heterogeneity can be controlled through restoration and management interventions, our findings are directly relevant to biodiversity conservation., (© 2022. The Author(s).)
- Published
- 2022
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30. Differential susceptibility of reef-building corals to deoxygenation reveals remarkable hypoxia tolerance.
- Author
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Johnson MD, Swaminathan SD, Nixon EN, Paul VJ, and Altieri AH
- Subjects
- Animals, Caribbean Region, Climate, Climate Change, Coral Bleaching, Ecology, Ecosystem, Environment, Environmental Monitoring, Fluorometry, Genotype, Geologic Sediments analysis, Species Specificity, Water Pollutants analysis, Anthozoa physiology, Coral Reefs, Hypoxia, Oxygen chemistry
- Abstract
Ocean deoxygenation threatens the persistence of coastal ecosystems worldwide. Despite an increasing awareness that coastal deoxygenation impacts tropical habitats, there remains a paucity of empirical data on the effects of oxygen limitation on reef-building corals. To address this knowledge gap, we conducted laboratory experiments with ecologically important Caribbean corals Acropora cervicornis and Orbicella faveolata. We tested the effects of continuous exposure to conditions ranging from extreme deoxygenation to normoxia (~ 1.0 to 6.25 mg L
-1 dissolved oxygen) on coral bleaching, photophysiology, and survival. Coral species demonstrated markedly different temporal resistance to deoxygenation, and within a species there were minimal genotype-specific treatment effects. Acropora cervicornis suffered tissue loss and mortality within a day of exposure to severe deoxygenation (~ 1.0 mg L-1 ), whereas O. faveolata remained unaffected after 11 days of continuous exposure to 1.0 mg L-1 . Intermediate deoxygenation treatments (~ 2.25 mg L-1 , ~ 4.25 mg L-1 ) elicited minimal responses in both species, indicating a low oxygen threshold for coral mortality and coral resilience to oxygen concentrations that are lethal for other marine organisms. These findings demonstrate the potential for variability in species-specific hypoxia thresholds, which has important implications for our ability to predict how coral reefs may be affected as ocean deoxygenation intensifies. With deoxygenation emerging as a critical threat to tropical habitats, there is an urgent need to incorporate deoxygenation into coral reef research, management, and action plans to facilitate better stewardship of coral reefs in an era of rapid environmental change., (© 2021. The Author(s).)- Published
- 2021
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31. Rapid ecosystem-scale consequences of acute deoxygenation on a Caribbean coral reef.
- Author
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Johnson MD, Scott JJ, Leray M, Lucey N, Bravo LMR, Wied WL, and Altieri AH
- Subjects
- Animals, Bacteria classification, Bacteria genetics, Caribbean Region, Climate Change, Fishes physiology, Geography, Metagenomics methods, Models, Biological, Panama, Phylogeny, Seawater microbiology, Anthozoa physiology, Coral Reefs, Ecosystem, Oxygen metabolism
- Abstract
Loss of oxygen in the global ocean is accelerating due to climate change and eutrophication, but how acute deoxygenation events affect tropical marine ecosystems remains poorly understood. Here we integrate analyses of coral reef benthic communities with microbial community sequencing to show how a deoxygenation event rapidly altered benthic community composition and microbial assemblages in a shallow tropical reef ecosystem. Conditions associated with the event precipitated coral bleaching and mass mortality, causing a 50% loss of live coral and a shift in the benthic community that persisted a year later. Conversely, the unique taxonomic and functional profile of hypoxia-associated microbes rapidly reverted to a normoxic assemblage one month after the event. The decoupling of ecological trajectories among these major functional groups following an acute event emphasizes the need to incorporate deoxygenation as an emerging stressor into coral reef research and management plans to combat escalating threats to reef persistence., (© 2021. The Author(s).)
- Published
- 2021
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32. Seasonal upwelling reduces herbivore control of tropical rocky intertidal algal communities.
- Author
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Sellers AJ, Leung B, Altieri AH, Glanz J, Turner BL, and Torchin ME
- Subjects
- Seasons, Ecosystem, Herbivory
- Abstract
Communities are shaped by a variety of ecological and environmental processes, each acting at different spatial scales. Seminal research on rocky shores highlighted the effects of consumers as local determinants of primary productivity and community assembly. However, it is now clear that the species interactions shaping communities at local scales are themselves regulated by large-scale oceanographic processes that generate regional variation in resource availability. Upwelling events deliver nutrient-rich water to coastal ecosystems, influencing primary productivity and algae-herbivore interactions. Despite the potential for upwelling to alter top-down control by herbivores, we know relatively little about the coupling between oceanographic processes and herbivory on tropical rocky shores, where herbivore effects on producers are considered to be strong and nutrient levels are considered to be limiting. By replicating seasonal molluscan herbivore exclusion experiments across three regions exposed to varying intensity of seasonal upwelling, separated by hundreds of kilometers along Panama's Pacific coast, we examine large-scale environmental determinants of consumer effects and community structure on tropical rocky shores. At sites experiencing seasonal upwelling, grazers strongly limited macroalgal cover when upwelling was absent, leading to dominance by crustose algae. As nutrients increased and surface water cooled during upwelling events, increases in primary productivity temporarily weakened herbivory, allowing foliose, turf and filamentous algae to replace crusts. Meanwhile, grazer effects were persistently strong at sites without seasonal upwelling. Our results confirm that herbivores are key determinants of tropical algal cover, and that the mollusk grazing guild can control initial stages of macroalgal succession. However, our focus on regional oceanographic conditions revealed that bottom-up processes regulate top-down control on tropical shorelines. This study expands on the extensive body of work highlighting the influence of upwelling on local ecological processes by demonstrating that nutrient subsidies delivered by upwelling events can weaken herbivory in tropical rocky shores., (© 2021 by the Ecological Society of America.)
- Published
- 2021
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33. Seagrass structural and elemental indicators reveal high nutrient availability within a tropical lagoon in Panama.
- Author
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Gaubert-Boussarie J, Altieri AH, Duffy JE, and Campbell JE
- Abstract
Seagrass meadows are valued coastal habitats that provide ecological and economic benefits around the world. Despite their importance, many meadows are in decline, driven by a variety of anthropogenic impacts. While these declines have been well documented in some regions, other locations (particularly within the tropics) lack long-term monitoring programs needed to resolve seagrass trends over time. Effective and spatially-expansive monitoring within under-represented regions is critical to provide an accurate perspective on seagrass status and trends. We present a comprehensive dataset on seagrass coverage and composition across 24 sites in Bahía Almirante, a lagoon along the Caribbean coast of Panama. Using a single survey, we focus on capturing spatial variation in seagrass physical and elemental characteristics and provide data on key seagrass bio-indicators, such as leaf morphology (length and width), elemental content (% nitrogen and phosphorus) and stable isotopic signatures ( δ
13 C and δ15 N). We further explore relationships between these variables and water depth (proxy for light availability) and proximity to shore (proxy for terrestrial inputs). The seagrass assemblage was mostly monospecific (dominated by Thalassia testudinum) and restricted to shallow water (<3 m). Above-ground biomass varied widely, averaging 71.7 g dry mass m-2 , yet ranging from 24.8 to 139.6 g dry mass m-2 . Leaf nitrogen content averaged 2.2%, ranging from 1.76 to 2.57%, while phosphorus content averaged 0.19% and ranged from 0.15 to 0.23%. These values were high compared to other published reports for T. testudinum, indicating elevated nutrient availability within the lagoon. Seagrass stable isotopic characteristics varied slightly and were comparable with other published values. Leaf carbon signatures ( δ13 C) ranged from -11.74 to -6.70‰ and were positively correlated to shoreline proximity, suggesting a contribution of terrestrial carbon to seagrass biomass. Leaf nitrogen signatures ( δ15 N) ranged from -1.75 to 3.15‰ and showed no correlation with shoreline proximity, suggesting that N sources within the bay were not dominated by localized point-source discharge of treated sewage. Correlations between other seagrass bio-indicators and environmental metrics were mixed: seagrass cover declined with depth, while biomass was negatively correlated with N, indicating that light and nutrient availability may jointly regulate seagrass cover and biomass. Our work documents the response of seagrass in Bahía Almirante to light and nutrient availability and highlights the eutrophic status of this bay. Using the broad spatial coverage of our survey as a baseline, we suggest the future implementation of a continuous and spatially expansive seagrass monitoring program within this region to assess the health of these important systems subject to global and local stressors., Competing Interests: The authors declare there are no competing interests., (©2021 Gaubert-Boussarie et al.)- Published
- 2021
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34. Resilience of Tropical Ecosystems to Ocean Deoxygenation.
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Altieri AH, Johnson MD, Swaminathan SD, Nelson HR, and Gedan KB
- Subjects
- Biodiversity, Oceans and Seas, Coral Reefs, Ecosystem
- Abstract
The impacts of ocean deoxygenation on biodiversity and ecosystem function are well established in temperate regions, and here we illustrate how the study of hypoxia in tropical ecosystems can offer insights of general importance. We first describe how mechanisms of resilience have developed in response to naturally occurring hypoxia across three tropical ecosystems: coral reefs, seagrass beds, and mangrove forests. We then suggest that the vulnerability of these systems to deoxygenation lies in interactions with other stressors that are increasing rapidly in the Anthropocene. Finally, we advocate for the adoption of a broader community- and ecosystem-level perspective that incorporates mutualisms, feedbacks, and mechanisms of self-rescue and recovery to develop a better predictive understanding of the effects of deoxygenation in coastal ecosystems., (Copyright © 2020. Published by Elsevier Ltd.)
- Published
- 2021
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35. Climate drives the geography of marine consumption by changing predator communities.
- Author
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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
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36. Sea-level rise and the emergence of a keystone grazer alter the geomorphic evolution and ecology of southeast US salt marshes.
- Author
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Crotty SM, Ortals C, Pettengill TM, Shi L, Olabarrieta M, Joyce MA, Altieri AH, Morrison E, Bianchi TS, Craft C, Bertness MD, and Angelini C
- Abstract
Keystone species have large ecological effects relative to their abundance and have been identified in many ecosystems. However, global change is pervasively altering environmental conditions, potentially elevating new species to keystone roles. Here, we reveal that a historically innocuous grazer-the marsh crab Sesarma reticulatum -is rapidly reshaping the geomorphic evolution and ecological organization of southeastern US salt marshes now burdened by rising sea levels. Our analyses indicate that sea-level rise in recent decades has widely outpaced marsh vertical accretion, increasing tidal submergence of marsh surfaces, particularly where creeks exhibit morphologies that are unable to efficiently drain adjacent marsh platforms. In these increasingly submerged areas, cordgrass decreases belowground root:rhizome ratios, causing substrate hardness to decrease to within the optimal range for Sesarma burrowing. Together, these bio-physical changes provoke Sesarma to aggregate in high-density grazing and burrowing fronts at the heads of tidal creeks (hereafter, creekheads). Aerial-image analyses reveal that resulting " Sesarma- grazed" creekheads increased in prevalence from 10 ± 2% to 29 ± 5% over the past <25 y and, by tripling creek-incision rates relative to nongrazed creekheads, have increased marsh-landscape drainage density by 8 to 35% across the region. Field experiments further demonstrate that Sesarma- grazed creekheads, through their removal of vegetation that otherwise obstructs predator access, enhance the vulnerability of macrobenthic invertebrates to predation and strongly reduce secondary production across adjacent marsh platforms. Thus, sea-level rise is creating conditions within which Sesarma functions as a keystone species that is driving dynamic, landscape-scale changes in salt-marsh geomorphic evolution, spatial organization, and species interactions., Competing Interests: The authors declare no competing interest., (Copyright © 2020 the Author(s). Published by PNAS.)
- Published
- 2020
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37. Environmental DNA survey captures patterns of fish and invertebrate diversity across a tropical seascape.
- Author
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Nguyen BN, Shen EW, Seemann J, Correa AMS, O'Donnell JL, Altieri AH, Knowlton N, Crandall KA, Egan SP, McMillan WO, and Leray M
- Subjects
- Analysis of Variance, Animals, Geography, Phylogeny, Principal Component Analysis, Surveys and Questionnaires, Biodiversity, DNA, Environmental genetics, Fishes genetics, Invertebrates genetics, Oceans and Seas, Tropical Climate
- Abstract
Accurate, rapid, and comprehensive biodiversity assessments are critical for investigating ecological processes and supporting conservation efforts. Environmental DNA (eDNA) surveys show promise as a way to effectively characterize fine-scale patterns of community composition. We tested whether a single PCR survey of eDNA in seawater using a broad metazoan primer could identify differences in community composition between five adjacent habitats at 19 sites across a tropical Caribbean bay in Panama. We paired this effort with visual fish surveys to compare methods for a conspicuous taxonomic group. eDNA revealed a tremendous diversity of animals (8,586 operational taxonomic units), including many small taxa that would be undetected in traditional in situ surveys. Fish comprised only 0.07% of the taxa detected by a broad COI primer, yet included 43 species not observed in the visual survey. eDNA revealed significant differences in fish and invertebrate community composition across adjacent habitats and areas of the bay driven in part by taxa known to be habitat-specialists or tolerant to wave action. Our results demonstrate the ability of broad eDNA surveys to identify biodiversity patterns in the ocean.
- Published
- 2020
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38. Defining variation in pre-human ecosystems can guide conservation: An example from a Caribbean coral reef.
- Author
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O'Dea A, Lepore M, Altieri AH, Chan M, Morales-Saldaña JM, Muñoz NH, Pandolfi JM, Toscano MA, Zhao JX, and Dillon EM
- Subjects
- Animals, Caribbean Region, Fossils, Humans, Time Factors, Anthozoa physiology, Conservation of Natural Resources, Ecosystem
- Abstract
Many Caribbean coral reefs are heavily degraded, yet their pre-human, natural states are often assumed or estimated using space-for-time substitution approaches. Here we use an 11-hectare suite of fossilised mid-Holocene (7.2-5.6 ka) fringing reefs in Caribbean Panama to define natural variation in hard coral community structure before human-impact to provide context to the states of the same reefs today. We collected bulk samples from four trenches dug into the mid-Holocene fossil reef and surficial bulk samples from 2-10 m depths on five adjacent modern reefs extending over 5 km. Analysis of the abundances of coral taxa in fossil bulk samples define the Historical Range of Variation (HRV) in community structure of the reefs. When compared to the community structure of adjacent modern reefs, we find that most coral communities today fall outside the HRV, identifying them as novel ecosystems and corroborating the well-documented transition from acroporid-dominated Caribbean reefs to reefs dominated by stress-tolerant taxa (Porites and Agaricia). We find one modern reef, however, whose community composition remains within the HRV showing that it has not transitioned to a novel state. Reef-matrix cores extracted from this reef reveal that the coral community has remained in this state for over 800 years, suggesting long-term stability and resistance to the region-wide shift to novel states. Without these data to provide historical context, this potentially robust and stable reef would be overlooked since it does not fulfil expectations of what a Caribbean coral reef should look like in the absence of humans. This example illustrates how defining past variation using the fossil record can improve our understanding of modern degradation and guide conservation.
- Published
- 2020
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39. Can marine reserves restore lost ecosystem functioning? A global synthesis.
- Author
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Cheng BS, Altieri AH, Torchin ME, and Ruiz GM
- Subjects
- Animals, Biodiversity, Fisheries, Fishes, Oceans and Seas, Conservation of Natural Resources, Ecosystem
- Abstract
Marine protected areas (MPAs) have grown exponentially, emerging as a widespread tool to conserve biodiversity and enhance fisheries production. Although numerous empirical studies and global syntheses have evaluated the effects of MPAs on community structure (e.g., biodiversity), no broad assessment concerning their capacity to influence ecological processes (e.g., species interactions) exists. Here, we present meta-analyses that compare rates of predation and herbivory on a combined 32 species across 30 MPAs spanning 85° of latitude. Our analyses synthesize the fate of 15,225 field experiment assays, and demonstrate that MPAs greatly increased predation intensity on animals but not herbivory on macroalgae or seagrass. Predation risk, quantified as the odds of prey being eaten, was largely determined by predator abundance and biomass within reserves. At MPAs with the greatest predator accumulation, the odds of predation increased to nearly 49:1, as opposed to 1:1 at MPAs where predators actually declined. Surprisingly, we also found evidence that predation risk declined with increased sea-surface temperature. Greater predation risk within MPAs was consistent with predator and prey population abundance estimates, where predators increased 4.4-fold within MPAs, whereas prey decreased 2.2-fold. For herbivory, the lack of change may have been driven by functional redundancy and the inability of reserves to increase herbivore abundance relative to fished zones in our sample. Overall, this work highlights the capacity of MPAs to restore a critical ecosystem function such as predation, which mediates energy flows and community assembly within natural systems. However, our review of the literature also uncovers relatively few studies that have quantified the effects of MPAs on ecosystem function, highlighting a key gap in our understanding of how protected areas may alter ecological processes and deliver ecosystem services. From a historical perspective, these findings suggest that modern levels of predation in the coastal oceans may currently only be a fraction of the baseline prior to human exploitation., (© 2019 by the Ecological Society of America.)
- Published
- 2019
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40. Secondary foundation species enhance biodiversity.
- Author
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Thomsen MS, Altieri AH, Angelini C, Bishop MJ, Gribben PE, Lear G, He Q, Schiel DR, Silliman BR, South PM, Watson DM, Wernberg T, and Zotz G
- Subjects
- Animals, Ecosystem, Population Density, Biodiversity, Conservation of Natural Resources, Plants
- Abstract
It has long been recognized that primary foundation species (FS), such as trees and seagrasses, enhance biodiversity. Among the species facilitated are secondary FS, including mistletoes and epiphytes. Case studies have demonstrated that secondary FS can further modify habitat-associated organisms ('inhabitants'), but their net effects remain unknown. Here we assess how inhabitants, globally, are affected by secondary FS. We extracted and calculated 2,187 abundance and 397 richness Hedges' g effect sizes from 91 and 50 publications, respectively. A weighted meta-analysis revealed that secondary FS significantly enhanced the abundance and richness of inhabitants compared to the primary FS alone. This indirect facilitation arising through sequential habitat formation was consistent across environmental and experimental conditions. Complementary unweighted analyses on log response ratios revealed that the magnitude of these effects was similar to the global average strength of direct facilitation from primary foundation species and greater than the average strength of trophic cascades, a widely recognized type of indirect facilitation arising through sequential consumption. The finding that secondary FS enhance the abundance and richness of inhabitants has important implications for understanding the mechanisms that regulate biodiversity. Integrating secondary FS into conservation practice will improve our ability to protect biodiversity and ecosystem function.
- Published
- 2018
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41. The importance of sponges and mangroves in supporting fish communities on degraded coral reefs in Caribbean Panama.
- Author
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Seemann J, Yingst A, Stuart-Smith RD, Edgar GJ, and Altieri AH
- Abstract
Fish communities associated with coral reefs worldwide are threatened by habitat degradation and overexploitation. We assessed coral reefs, mangrove fringes, and seagrass meadows on the Caribbean coast of Panama to explore the influences of their proximity to one another, habitat cover, and environmental characteristics in sustaining biomass, species richness and trophic structure of fish communities in a degraded tropical ecosystem. We found 94% of all fish across all habitat types were of small body size (≤10 cm), with communities dominated by fishes that usually live in habitats of low complexity, such as Pomacentridae (damselfishes) and Gobiidae (gobies). Total fish biomass was very low, with the trend of small fishes from low trophic levels over-represented, and top predators under-represented, relative to coral reefs elsewhere in the Caribbean. For example, herbivorous fishes comprised 27% of total fish biomass in Panama relative to 10% in the wider Caribbean, and the small parrotfish Scarus iseri comprised 72% of the parrotfish biomass. We found evidence that non-coral biogenic habitats support reef-associated fish communities. In particular, the abundance of sponges on a given reef and proximity of mangroves were found to be important positive correlates of reef fish species richness, biomass, abundance and trophic structure. Our study indicates that a diverse fish community can persist on degraded coral reefs, and that the availability and arrangement within the seascape of other habitat-forming organisms, including sponges and mangroves, is critical to the maintenance of functional processes in such ecosystems., Competing Interests: The authors declare there are no competing interests.
- Published
- 2018
- Full Text
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42. Bioerosion in a changing world: a conceptual framework.
- Author
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Davidson TM, Altieri AH, Ruiz GM, and Torchin ME
- Subjects
- Climate Change, Eutrophication, Human Activities, Humans, Biodiversity, Ecosystem
- Abstract
Bioerosion, the breakdown of hard substrata by organisms, is a fundamental and widespread ecological process that can alter habitat structure, biodiversity and biogeochemical cycling. Bioerosion occurs in all biomes of the world from the ocean floor to arid deserts, and involves a wide diversity of taxa and mechanisms with varying ecological effects. Many abiotic and biotic factors affect bioerosion by acting on the bioeroder, substratum, or both. Bioerosion also has socio-economic impacts when objects of economic or cultural value such as coastal defences or monuments are damaged. We present a unifying definition and advance a conceptual framework for (a) examining the effects of bioerosion on natural systems and human infrastructure and (b) identifying and predicting the impacts of anthropogenic factors (e.g. climate change, eutrophication) on bioerosion. Bioerosion is responding to anthropogenic changes in multiple, complex ways with significant and wide-ranging effects across systems. Emerging data further underscore the importance of bioerosion, and need for mitigating its impacts, especially at the dynamic land-sea boundary. Generalised predictions remain challenging, due to context-dependent effects and nonlinear relationships that are poorly resolved. An integrative and interdisciplinary approach is needed to understand how future changes will alter bioerosion dynamics across biomes and taxa., (© 2018 John Wiley & Sons Ltd/CNRS.)
- Published
- 2018
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43. Look to the past for an optimistic future.
- Author
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O'Dea A, Dillon EM, Altieri AH, and Lepore ML
- Subjects
- Conservation of Natural Resources trends
- Published
- 2017
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44. Tropical dead zones and mass mortalities on coral reefs.
- Author
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Altieri AH, Harrison SB, Seemann J, Collin R, Diaz RJ, and Knowlton N
- Subjects
- Animals, Biodiversity, Conservation of Natural Resources, Coral Reefs, Panama, Population Dynamics, Tropical Climate, Anthozoa physiology, Oxygen analysis, Water Quality
- Abstract
Degradation of coastal water quality in the form of low dissolved oxygen levels (hypoxia) can harm biodiversity, ecosystem function, and human wellbeing. Extreme hypoxic conditions along the coast, leading to what are often referred to as "dead zones," are known primarily from temperate regions. However, little is known about the potential threat of hypoxia in the tropics, even though the known risk factors, including eutrophication and elevated temperatures, are common. Here we document an unprecedented hypoxic event on the Caribbean coast of Panama and assess the risk of dead zones to coral reefs worldwide. The event caused coral bleaching and massive mortality of corals and other reef-associated organisms, but observed shifts in community structure combined with laboratory experiments revealed that not all coral species are equally sensitive to hypoxia. Analyses of global databases showed that coral reefs are associated with more than half of the known tropical dead zones worldwide, with >10% of all coral reefs at elevated risk for hypoxia based on local and global risk factors. Hypoxic events in the tropics and associated mortality events have likely been underreported, perhaps by an order of magnitude, because of the lack of local scientific capacity for their detection. Monitoring and management plans for coral reef resilience should incorporate the growing threat of coastal hypoxia and include support for increased detection and research capacity.
- Published
- 2017
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45. Species coexistence and the superior ability of an invasive species to exploit a facilitation cascade habitat.
- Author
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Altieri AH and Irving AD
- Abstract
Facilitation cascades generated by co-occurring foundation species can enhance the abundance and diversity of associated organisms. However, it remains poorly understood how differences among native and invasive species in their ability to exploit these positive interactions contribute to emergent patterns of community structure and biotic acceptance. On intertidal shorelines in New England, we examined the patterns of coexistence between the native mud crabs and the invasive Asian shore crab in and out of a facilitation cascade habitat generated by mid intertidal cordgrass and ribbed mussels. These crab species co-occurred in low intertidal cobbles adjacent to the cordgrass-mussel beds, despite experimental findings that the dominant mud crabs can kill and displace Asian shore crabs and thereby limit their successful recruitment to their shared habitat. A difference between the native and invasive species in their utilization of the facilitation cascade likely contributes to this pattern. Only the Asian shore crabs inhabit the cordgrass-mussel beds, despite experimental evidence that both species can similarly benefit from stress amelioration in the beds. Moreover, only Asian shore crabs settle in the beds, which function as a nursery habitat free of lethal mud crabs, and where their recruitment rates are particularly high (nearly an order of magnitude higher than outside beds). Persistence of invasive adult Asian shore crabs among the dominant native mud crabs in the low cobble zone is likely enhanced by a spillover effect of the facilitation cascade in which recruitment-limited Asian shore crabs settle in the mid intertidal cordgrass-mussel beds and subsidize their vulnerable populations in the adjacent low cobble zone. This would explain why the abundances of Asian shore crabs in cobbles are doubled when adjacent to facilitation cascade habitats. The propensity for this exotic species to utilize habitats created by facilitation cascades, despite the lack of a shared evolutionary history, contributes to species coexistence and the acceptance of invasives into a diverse community., Competing Interests: The authors declare that they have no competing interests.
- Published
- 2017
- Full Text
- View/download PDF
46. The emergent role of small-bodied herbivores in pre-empting phase shifts on degraded coral reefs.
- Author
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Kuempel CD and Altieri AH
- Subjects
- Animals, Biomass, Fishes physiology, Sea Urchins physiology, Coral Reefs, Herbivory, Seaweed growth & development
- Abstract
Natural and anthropogenic stressors can cause phase shifts from coral-dominated to algal-dominated states. In the Caribbean, over-fishing of large herbivorous fish and disease among the long-spined urchin, Diadema, have facilitated algal growth on degraded reefs. We found that diminutive species of urchin and parrotfish, which escaped die-offs and fishing pressure, can achieve abundances comparable to total herbivore biomass on healthier, protected reefs, and exert sufficient grazing function to pre-empt macroalgal dominance following mass coral mortality. Grazing was highest on the most degraded reefs, and was driven by small herbivores that made up >93% of the average herbivore biomass (per m
2 ). We suggest that previously marginal species can achieve a degree of functional redundancy, and that their compensatory herbivory may play an important role in ecosystem resilience. Management strategies should consider the potential role of these additional herbivore functional groups in safeguarding natural controls of algal growth in times of increased uncertainty for the world's reefs.- Published
- 2017
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47. How habitat-modifying organisms structure the food web of two coastal ecosystems.
- Author
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van der Zee EM, Angelini C, Govers LL, Christianen MJ, Altieri AH, van der Reijden KJ, Silliman BR, van de Koppel J, van der Geest M, van Gils JA, van der Veer HW, Piersma T, de Ruiter PC, Olff H, and van der Heide T
- Subjects
- Biodiversity, Mauritania, New England, Symbiosis, Aquatic Organisms physiology, Food Chain, Wetlands
- Abstract
The diversity and structure of ecosystems has been found to depend both on trophic interactions in food webs and on other species interactions such as habitat modification and mutualism that form non-trophic interaction networks. However, quantification of the dependencies between these two main interaction networks has remained elusive. In this study, we assessed how habitat-modifying organisms affect basic food web properties by conducting in-depth empirical investigations of two ecosystems: North American temperate fringing marshes and West African tropical seagrass meadows. Results reveal that habitat-modifying species, through non-trophic facilitation rather than their trophic role, enhance species richness across multiple trophic levels, increase the number of interactions per species (link density), but decrease the realized fraction of all possible links within the food web (connectance). Compared to the trophic role of the most highly connected species, we found this non-trophic effects to be more important for species richness and of more or similar importance for link density and connectance. Our findings demonstrate that food webs can be fundamentally shaped by interactions outside the trophic network, yet intrinsic to the species participating in it. Better integration of non-trophic interactions in food web analyses may therefore strongly contribute to their explanatory and predictive capacity., (© 2016 The Author(s).)
- Published
- 2016
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48. Herbivory drives zonation of stress-tolerant marsh plants.
- Author
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He Q, Altieri AH, and Cui B
- Subjects
- Animals, Demography, Brachyura physiology, Chenopodiaceae physiology, Herbivory physiology, Salt-Tolerant Plants physiology, Wetlands
- Abstract
Ecological studies of plant distributions along environmental gradients, such as plant zonation in salt marshes, have primarily focused on abiotic stress and plant interactions (competition and facilitation). A decades-old paradigm is that the stressful and benign boundaries of salt marsh plants are determined by abiotic stress and competition, respectively. Although consumers have long been recognized as mediating algal and sessile animal zonation in the rocky intertidal, their role in generating plant zonation in salt marshes remains largely unexplored. We examined the zonation of two annual succulents, Salicornia europaea and Suaeda salsa, along an elevation gradient in a northern Chinese salt marsh, with and without manipulating the common herbivorous crab Helice tientsinensis. Salicornia occupies waterlogged, low-salinity habitats, whereas Suaeda dominates non-waterlogged, hypersaline habitats at higher elevations. We first conducted a pot experiment crossing salinity, waterlogging, and competition, followed by a field experiment with removal of competitors, and found that neither waterlogging nor salinity stress explained the absence of either species from the other's zone, while Suaeda competitively excluded Salicornia from the upper non-waterlogged zone. We then conducted field and lab herbivory experiments, which showed that Helice preferentially grazed Suaeda at waterlogged low elevations and that Helice grazing on Suaeda increased with waterlogging. These results reveal that while competition plays a role in the zonation by excluding Salicornia from the upper Suaeda zone, crab grazing limits the success of Suaeda in the lower Salicornia zone. These findings challenge the idea that plant interactions and abiotic stress are sufficient to explain marsh zonation in all cases, and highlight an overlooked role of consumers, a role potentially general across diverse intertidal ecosystems. Future models of plant distributions should consider how consumer pressure interacts with plant interactions and abiotic stress across environmental gradients.
- Published
- 2015
- Full Text
- View/download PDF
49. Climate change and dead zones.
- Author
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Altieri AH and Gedan KB
- Subjects
- Anaerobiosis, Temperature, Climate Change, Estuaries, Seawater chemistry, Weather
- Abstract
Estuaries and coastal seas provide valuable ecosystem services but are particularly vulnerable to the co-occurring threats of climate change and oxygen-depleted dead zones. We analyzed the severity of climate change predicted for existing dead zones, and found that 94% of dead zones are in regions that will experience at least a 2 °C temperature increase by the end of the century. We then reviewed how climate change will exacerbate hypoxic conditions through oceanographic, ecological, and physiological processes. We found evidence that suggests numerous climate variables including temperature, ocean acidification, sea-level rise, precipitation, wind, and storm patterns will affect dead zones, and that each of those factors has the potential to act through multiple pathways on both oxygen availability and ecological responses to hypoxia. Given the variety and strength of the mechanisms by which climate change exacerbates hypoxia, and the rates at which climate is changing, we posit that climate change variables are contributing to the dead zone epidemic by acting synergistically with one another and with recognized anthropogenic triggers of hypoxia including eutrophication. This suggests that a multidisciplinary, integrated approach that considers the full range of climate variables is needed to track and potentially reverse the spread of dead zones., (© 2014 John Wiley & Sons Ltd.)
- Published
- 2015
- Full Text
- View/download PDF
50. Long-distance interactions regulate the structure and resilience of coastal ecosystems.
- Author
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van de Koppel J, van der Heide T, Altieri AH, Eriksson BK, Bouma TJ, Olff H, and Silliman BR
- Subjects
- Animals, Bathing Beaches, Bivalvia growth & development, Coral Reefs, Fishes growth & development, Population Density, Seaweed growth & development, Spatial Analysis, Wetlands, Ecosystem, Environmental Monitoring methods
- Abstract
Mounting evidence indicates that spatial interactions are important in structuring coastal ecosystems. Until recently, however, most of this work has been focused on seemingly exceptional systems that are characterized by regular, self-organized patterns. In this review, we document that interactions that operate at long distances, beyond the direct neighborhood of individual organisms, are more common and have much more far-reaching implications for coastal ecosystems than was previously realized. We review studies from a variety of ecosystem types-including cobble beaches, mussel beds, coral reefs, seagrass meadows, and mangrove forests-that reveal a startling interplay of positive and negative interactions between habitats across distances of up to a kilometer. In addition to classical feeding relations, alterations of physical conditions constitute an important part of these long-distance interactions. This entanglement of habitats has crucial implications for how humans manage coastal ecosystems, and evaluations of anthropogenic impact should explicitly address long-distance and system-wide effects before we deem these human activities to be causing little harm.
- Published
- 2015
- Full Text
- View/download PDF
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