Assessment of restoration success in a transplanted seagrass bed based on isotopic niche metrics

The by-the-wind sailor Velella velella (Linnaeus, 1758) and its predator, the violet snail Janthina globosa (Swainson, 1822) are both floating neustonic organisms. Despite their global oceanic distribution and widespread blooms of V. velella in recent years, many gaps remain in our understanding about prey/predator interactions between these two taxa. Using stable isotope ratios of carbon and nitrogen, we aimed to study the trophic relationship between V. velella and J. globosa and investigate diet variation of V. velella and J. globosa in relation to individuals’ size. Bayesian approaches were used to calculate isotopic niche metrics and the contribution of V. velella to the J. globosa diet. Our data showed that the isotopic niche of V. velella differed markedly from that of J. globosa. It was larger and did not overlap that of the J. globosa, indicating a more variable diet but at a lower trophic level than J. globosa. The isotopic niche of V. velella also varied according to the size class of the individual. Small individuals showed a larger isotopic niche than larger animals and low overlap with those of the larger individuals. J. globosa displayed very low isotopic variability and very small isotopic niches. In contrast, there were no isotopic composition nor isotopic niche differences between J. globosa of any size. This very low isotopic variability suggested that J. globosa is a specialist predator, feeding, at least in this aggregation, principally on V. velella. Moreover, outputs of a stable isotope mixing model revealed preferential feeding on medium to large ( 500 mm2) V. velella colonies. While our isotopic data showed the trophic relationship between V. velella and J. globosa, many questions remain about the ecology of these two organisms, demonstrating the need for more fundamental studies about neustonic ecosystems.

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Isotopic niche of two coastal dolphins in a tropical marine area: specific and age class comparisons

Journal of the Marine Biological Association of the United Kingdom ◽

10.1017/s0025315415001095 ◽

2015 ◽

Vol 96 (4) ◽

pp. 853-858 ◽

Cited By ~ 6

Author(s):

Ana Paula Madeira Di Beneditto ◽

Leandro Rabello Monteiro

Keyword(s):

Stomach Contents ◽

Niche Overlap ◽

Niche Differentiation ◽

Trophic Levels ◽

Food Sources ◽

Isotopic Niche ◽

Marine Area ◽

Age Class ◽

Niche Metrics ◽

Pontoporia Blainvillei

Niche differentiation is the process by which species evolve different forms of resource use, and is used to explain the co-occurrence in a variety of habitats. The Bayesian framework of isotopic niche through quantitative niche metrics was applied to estimate and compare the niche breadth of two sympatric coastal dolphinsPontoporia blainvilleiandSotalia guianensisin a tropical marine area. The standard ellipse areas (SEAs) based on species were quite similar, but the SEAs based on age class showed that the matures’ niche space is larger than the immatures’ for both dolphins. A probabilistic comparison of SEAs indicated that specific differences are negligible compared with age class differences. Trophic level measures (δ15N range) indicated that the dolphins are comparable as top predators, and that immature specimens have a lower range of trophic levels than mature ones. In terms of variability of food sources (δ13C range),S. guianensisshowed a larger value thanP. blainvilleiand mature specimens had larger δ13C range than immatures for both species. In general,P. blainvilleiandS. guianensiswere similar in the niche metrics, with SEAs overlap of 52.1 and 39.7%. The immature specimens showed reduced isotopic niche overlap between species (<3%). In conclusion,Pontoporia blainvilleiandS. guianensisspecimens have similar isotopic niches, but pronounced differences between immature and mature specimens, both intraspecific and interspecific. Isotopic niche and quantitative metrics along with previous data on stomach contents provide a strong representation of species niche and their relationships.

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Evaluating Riparian Restoration Success: Long-Term Responses of the Breeding Bird Community in California’s Lower Putah Creek Watershed

Ecological Restoration ◽

10.3368/er.36.1.76 ◽

2018 ◽

Vol 36 (1) ◽

pp. 76-85 ◽

Cited By ~ 2

Author(s):

Kristen E. Dybala ◽

Andrew Engilis ◽

John A. Trochet ◽

Irene E. Engilis ◽

Melanie L. Truan

Keyword(s):

Bird Community ◽

Riparian Restoration ◽

Breeding Bird ◽

Restoration Success ◽

Creek Watershed ◽

Putah Creek

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SEAGRESS COVERAGE AND ECOSYSTEM CONDITION AT THE COASTAL AREA OF MADASANGER, JELENGA AND MALUK, WEST SUMBAWA

Jurnal Ilmu dan Teknologi Kelautan Tropis ◽

10.29244/jitkt.v5i1.7744 ◽

2013 ◽

Vol 5 (1) ◽

Author(s):

Erny Poedjirahajoe ◽

Ni Putu Diana Mahayani ◽

Boy Rahardjo Sidharta ◽

Muhamad Salamuddin

Keyword(s):

Coastal Area ◽

Seagrass Species ◽

Seagrass Bed ◽

Water Turbidity ◽

Transect Sampling ◽

Sampling Points ◽

Ecosystem Condition ◽

High Turbidity ◽

Line Transects ◽

Seagrass Coverage

The increase of temperature might affect the distribution and reproduction of seagrass. This research aims to determine the seagrass bed coverage and the ecosystem condition. Three line transects were established perpendicular to the coastal line with the distance of 50-100 m, or up to the border of the intertidal area. In each transect, sampling points were determined with a distance of 10-20 m. At the sampling points, a plot of 50 cm x 50 cm was established to measure the coverage percentage of seagrass vegetation. The seagrass species were also observed and recorded along the line transects. The percentage of seagrass coverage was measured using a method from Saito and Atobe (1994). The results showed that the coastal area of Jelenga has the highest percentage of seagrass coverage (>60%, healthy) among other coastal areas. This may be caused by the characteristic of Jelenga coast which was relatively calm, few visitors, low water turbidity, and high light penetration. While, other transects have percentage coverage of less than 60% (less healthy). There was one transect on Maluk coast which has coverage percentage of less than 29% (lack of seagrass species). The small coverage percentage on Maluk coast can be caused by the high number of visitors and high activity of fishing boats around the coast which results in high turbidity. Keywords: coverage, ecosystem condition, seagrass bed, west Sumbawa.

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The isotopic niche of Atlantic, biting marine mammals and its relationship to skull morphology and body size

Scientific Reports ◽

10.1038/s41598-021-94610-w ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Massimiliano Drago ◽

Marco Signaroli ◽

Meica Valdivia ◽

Enrique M. González ◽

Asunción Borrell ◽

...

Keyword(s):

Body Size ◽

Atlantic Ocean ◽

Fisheries Management ◽

Marine Mammals ◽

Trophic Position ◽

Sympatric Species ◽

Isotopic Niche ◽

Apex Predators ◽

Skull Morphology ◽

Ecosystem Based Fisheries Management

AbstractUnderstanding the trophic niches of marine apex predators is necessary to understand interactions between species and to achieve sustainable, ecosystem-based fisheries management. Here, we review the stable carbon and nitrogen isotope ratios for biting marine mammals inhabiting the Atlantic Ocean to test the hypothesis that the relative position of each species within the isospace is rather invariant and that common and predictable patterns of resource partitioning exists because of constrains imposed by body size and skull morphology. Furthermore, we analyze in detail two species-rich communities to test the hypotheses that marine mammals are gape limited and that trophic position increases with gape size. The isotopic niches of species were highly consistent across regions and the topology of the community within the isospace was well conserved across the Atlantic Ocean. Furthermore, pinnipeds exhibited a much lower diversity of isotopic niches than odontocetes. Results also revealed body size as a poor predictor of the isotopic niche, a modest role of skull morphology in determining it, no evidence of gape limitation and little overlap in the isotopic niche of sympatric species. The overall evidence suggests limited trophic flexibility for most species and low ecological redundancy, which should be considered for ecosystem-based fisheries management.

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The presence of kelp Lessonia trabeculata drives isotopic niche segregation of redspotted catshark Schroederichthys chilensis

Estuarine Coastal and Shelf Science ◽

10.1016/j.ecss.2021.107435 ◽

2021 ◽

pp. 107435

Author(s):

Sara Vásquez-Castillo ◽

Iván A. Hinojosa ◽

Nicole Colin ◽

Aldo A. Poblete ◽

Konrad Górski

Keyword(s):

Isotopic Niche ◽

Niche Segregation ◽

Lessonia Trabeculata

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Monitoring Vegetation Dynamics at a Tidal Marsh Restoration Site: Integrating Field Methods, Remote Sensing and Modeling

Estuaries and Coasts ◽

10.1007/s12237-021-00977-4 ◽

2021 ◽

Author(s):

Alexandra S. Thomsen ◽

Johannes Krause ◽

Monica Appiano ◽

Karen E. Tanner ◽

Charlie Endris ◽

...

Keyword(s):

Sea Level Rise ◽

Sea Level ◽

Soil Analysis ◽

High Elevation ◽

Vegetation Monitoring ◽

Field Methods ◽

Bare Area ◽

Marsh Restoration ◽

Restoration Success ◽

Restoration Strategies

AbstractSea level rise threatens coastal wetlands worldwide, and restoration projects are implementing strategies that decrease vulnerability to this threat. Vegetation monitoring at sites employing new restoration strategies and determination of appropriate monitoring techniques improve understanding of factors leading to restoration success. In Central California, soil addition raised a degraded marsh plain to a high elevation expected to be resilient to sea level rise over the next century. We monitored plant survival and recruitment using area searches, transect surveys, and unoccupied aircraft systems (UAS) imagery. We used random forest modeling to examine the influence of nine environmental variables on vegetation colonization and conducted targeted soil sampling to examine additional factors contributing to vegetation patterns. Limited pre-construction vegetation survived soil addition, likely due to the sediment thickness (mean = 69 cm) and placement method. After 1 year, about 10% of the initially bare area saw vegetation reestablishment. Elevation and inundation frequency were particularly critical to understanding restoration success, with greatest vegetation cover in high-elevation areas tidally inundated < 0.85% of the time. Soil analysis suggested greater salinity stress and ammonium levels in poorly-vegetated compared to well-vegetated areas at the same elevation. We found that both transect and UAS methods were suitable for monitoring vegetation colonization. Field transects may provide the best approach for tracking early vegetation colonization at moderate-sized sites under resource limitations, but UAS provide a complementary landscape perspective. Beyond elucidating patterns and drivers of marsh dynamics at a newly restored site, our investigation informs monitoring of marsh restoration projects globally.

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Ecological restoration success from community and agency perspectives – exploring the differences

Restoration Ecology ◽

10.1111/rec.13405 ◽

2021 ◽

Author(s):

Mel Galbraith ◽

David R. Towns ◽

Barbara Bollard‐Breen ◽

Edith A. MacDonald

Keyword(s):

Ecological Restoration ◽

Restoration Success

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