Mangrove carbon sustains artisanal fish and other estuarine consumers in a major mangrove area of the southern Caribbean Sea

Londoño, LA Sandoval; Mancera-Pineda, JE; Leal-Flórez, Jenny; Blanco-Libreros, Juan F.; Delgado‐Huertas, Antonio

doi:10.3354/meps13910

Cited by 11 publications

(5 citation statements)

References 71 publications

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“…Multiple pathways of energy and nutrient flow exist in mangrove food webs due to the wide range of available food sources, such as plankton, benthic microalgae, mangroves, macroalgae, and macrophytes. 4 , 65 By assessing the trophic transfer of seabird-derived nutrients, we found that seabirds also enriched the mangrove invertebrate food web. We detected higher δ 15 N at seabird sites at all trophic levels, including baseline (sediments), primary producers (mangrove leaves), primary consumers (gastropods and sesarmid crabs), and a secondary consumer (portunid crab; Figure 4 ).…”

Section: Discussionmentioning

confidence: 92%

“…Nutrients can also be transferred to adjacent coastal habitats (such as coral reefs or seagrass areas) via mangrove leaf litter, which plays a key role in sustaining adjacent marine food webs. 65 Leaves with higher nutrient content or nutritive value are more rapidly broken down than less nutrient-rich leaves. 15 Seabird-derived nutrients from mangroves may therefore extend to adjacent marine communities through trophic pathways, for example via fish communities from nearby reefs or seagrass beds that utilize mangroves as nursery or feeding habitat.…”

Section: Discussionmentioning

confidence: 99%

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Seabird nutrient subsidies enrich mangrove ecosystems and are exported to nearby coastal habitats

Appoo,

Bunbury,

Jaquemet

et al. 2024

iScience

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Section: Discussionmentioning

confidence: 92%

Section: Discussionmentioning

confidence: 99%

Seabird nutrient subsidies enrich mangrove ecosystems and are exported to nearby coastal habitats

Appoo,

Bunbury,

Jaquemet

et al. 2024

iScience

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Section: Discussionmentioning

confidence: 99%

“…These results indicate horizontal transfer of seabird-derived nutrients, from mangroves through tidally-mediated nutrient exchange. Nutrients can also be transferred to adjacent coastal habitats (such as coral reefs or seagrass areas) via mangrove leaf litter, which plays a key role in sustaining adjacent marine food webs 62 . Leaves with higher-nutrient content or nutritive value are more rapidly broken down than less nutrient-rich leaves 15 .…”

Section: Discussionmentioning

confidence: 99%

Seabird nutrient subsidies enrich mangrove ecosystems and are exported to nearby coastal habitats

Appoo,

Bunbury,

Jaquemet

et al. 2023

Preprint

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SUMMARYEutrophication by human-derived nutrient enrichment is a major threat to mangroves, impacting productivity, ecological functions, resilience and ecosystem services. Natural mangrove nutrient enrichment processes, however, remain largely uninvestigated. Mobile consumers such as seabirds are important vectors of cross-ecosystem nutrient subsidies to islands but how they influence mangrove ecosystems is poorly known. We assessed the contribution, uptake, cycling and transfer of nutrients from seabird colonies in remote mangrove systems free of human stressors. We found that nutrients from seabird guano enrich mangrove plants, reduce nutrient limitations, enhance mangrove invertebrate food webs and are exported to nearby coastal habitats through tidal flow. We show that seabird nutrient subsidies in mangroves can be substantial, improving the nutrient status and health of mangroves and adjacent coastal habitats. Conserving mobile consumers, such as seabirds, is therefore vital to preserve and enhance their role in mangrove productivity, resilience and provision of diverse functions and services.

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“…Mangrove forests are unique tropical and subtropical ecosystems. They offer essential habitat and nursery grounds for commercially important fish and other fauna (Robertson & Duke 1987; Mohamed et al 2014; Huxham et al 2017), can sustain the secondary production of fisheries resources (Sandoval et al 2022), afford firewood, materials for the construction of houses and fishing gear and income (Djamaluddin 2004; Diele et al 2010; Chow 2018), protect coastlines from erosion (Lee et al 2014; Dasgupta et al 2019), bioremediate and help mitigate climate change by sequestering carbon (Murdiyarso et al 2015; Cameron et al 2019; Jennerjahn 2020). Despite their ecological and economic importance, mangroves have experienced significant degradation and deforestation (Polidoro et al 2010).…”

Section: Introductionmentioning

confidence: 99%

Point of (no) return? Vegetation structure and diversity of restored mangroves in Sulawesi, Indonesia, 14–16 years on

Djamaluddin

Fusi

Djabar³

et al. 2023

Restoration Ecology

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Mangrove forests, benefitting millions of people, experience significant degradation. Global recognition of the urgency of halting and reversing this trend have initiated numerous restoration activities. Restoration success is typically evaluated by estimating mangrove survival and area restored, while diversity and structure of vegetation, as proxies for functional forests, are rarely considered. Here we assess mangrove species richness along sea‐landward transects and evaluate restoration outcomes by comparing number of mangrove species, relative species abundance, biomass, diameter, and canopy cover in “Monoculture Reforestation”, “Mixed Species Regeneration” and adjacent “Reference” forest stands, 14 (Tiwoho site) and 16 years (Likupang site) after restoration activities took place. In the “Monoculture Reforestation” plots, mangrove diversity and structure still closely reflected the original restoration actions, with only one and two “new” species having established among the originally densely planted “foundation” species. In contrast, the “Mixed Species Regeneration” plots were more similar to the “Reference” plots in terms of tree diameter and canopy coverage, but species number, abundance and biomass were still lower. The trajectory of the “Mixed Species Regeneration” plots suggests their similarity with the “Reference” stands will increase over time, whereas such “smooth” transition is unlikely to happen in the planted “Monoculture Reforestation” stands, in the foreseeable future. Implementing frequent small‐scale disturbances in restored forest management would increase stand structure and diversity, accelerating the establishment of a more natural, and likely more functional and resilient forest.

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Mangrove carbon sustains artisanal fish and other estuarine consumers in a major mangrove area of the southern Caribbean Sea

Cited by 11 publications

References 71 publications

Seabird nutrient subsidies enrich mangrove ecosystems and are exported to nearby coastal habitats

Seabird nutrient subsidies enrich mangrove ecosystems and are exported to nearby coastal habitats

Seabird nutrient subsidies enrich mangrove ecosystems and are exported to nearby coastal habitats

Point of (no) return? Vegetation structure and diversity of restored mangroves in Sulawesi, Indonesia, 14–16 years on

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