Temporal variability of a protected multispecific tropical seagrass meadow in response to environmental change

Aller, Elisa Alonso; Eklöf, Johan; Gullström, Martin; Kloiber, Ulrike; Linderholm, Hans W.; Nordlund, Lina Mtwana

doi:10.1007/s10661-019-7977-z

Cited by 14 publications

(12 citation statements)

References 57 publications

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“…With the loss of seagrass beds, a cascade in the loss of biodiversity and abundance of other aquatic species that depend on these habitats is expected (Jackson et al, 2001;Hughes et al, 2009). Threats to seagrasses include natural events such as flooding and siltation, which can temporarily result in the complete extirpation of seagrass beds (Riddin and Adams, 2012), but also anthropogenic factors such as coastal development, modification of shorelines, pollution and excessive bait collection (Duarte, 2002;Orth et al, 2006;Pillay et al, 2010;Stankovic et al, 2021), as well as climate change (Aller et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

The Last Two Remaining Populations of the Critically Endangered Estuarine Pipefish Are Inbred and Not Genetically Distinct

et al. 2022

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The critically endangered estuarine pipefish, Syngnathus watermeyeri, is one of Africa’s rarest fish species and currently faces a significant risk of extinction. A combination of anthropogenic and natural factors threaten submerged macrophyte beds in the two South African estuaries (Bushmans and Kariega) in which the species’ only two known remaining populations reside. Here, we genotyped 34 pipefish from both populations using genome-wide data to determine whether the two estuaries harbour distinct genetic diversity, such that translocating individuals between them might improve the genetic health of both. Our results show that both populations are highly inbred, and no statistically significant genetic structure was found between them. Moreover, individuals both within and between estuaries were very closely related to each other. These results indicate that the remaining populations of the estuarine pipefish suffer from the adverse genetic effects of small population sizes. Even though recent surveys have estimated population sizes in the order of thousands of individuals, these may fluctuate considerably. Although the translocation of genetically similar individuals between habitats will not increase local genetic diversity, the creation of additional populations across the species’ historical range may be a suitable conservation strategy to prevent further loss of genetic diversity, and to minimise the overall extinction risk posed by environmental stochasticity.

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Section: Introductionmentioning

confidence: 99%

The Last Two Remaining Populations of the Critically Endangered Estuarine Pipefish Are Inbred and Not Genetically Distinct

et al. 2022

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“…In our study, the invertebrates of the intertidal and gleaner landings were surveyed during spring low tide which may have impacted the species recorded within our study. Within the context of coastal East Africa, fishery resources inhabiting intertidal ecosystems may have seasonal, yearly, or decadal variations that could be both natural and human-induced (Nordlund et al 2010 ; Alonso Aller et al 2019 ). Additionally, fishing practices and social norms within a SSF may change over time based on the social-economic setting and context (Cinner 2009 , 2011 , 2009 ).…”

Section: Discussionmentioning

confidence: 99%

Social-ecological system analysis of an invertebrate gleaning fishery on the island of Unguja, Zanzibar

Stiepani

Jiddawi

Nordlund

2022

Ambio

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Invertebrate gleaning is a small-scale fishery that commonly occurs in the intertidal zone across the tropical Indo-Pacific. In this study, we investigated and analyzed several components of this fishery on the island of Unguja, Zanzibar by employing the social-ecological systems framework from Ostrom 2009. In doing so, we conducted ecological surveys, catch assessments, interviews with gleaners, household surveys, focus group interviews and analyzed the governance structure. This social-ecological systems analysis showed that gleaning is important for food security, local culture and livelihood. Yet, the multiple approaches in our study revealed that the local intertidal zone is degrading and that the gleaned catch is changing. Local narratives indicate that economically important bivalves (Modiolus spp.) and gastropods (Strombus spp.) are in decline, which was paralleled with low abundances of both genera within the ecological survey of the intertidal and catch landing assessment. We recommend that invertebrate gleaning, a fishery mainly comprised of women should be included in fisheries management.

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“…Due to the seagrass life cycle and threats to seagrass, interval or continuous sampling is needed to produce a temporal (i.e., dynamic) seagrass HSM [ 126 – 129 ]. It is important to examine the distribution of seagrass habitats with a different biology and ecology of seagrass species [ 128 – 131 ]. Thus, further study is needed to produce dynamic HSM models based on the temporal cycle of seagrass habitat.…”

Section: Discussionmentioning

confidence: 99%

Seagrass habitat suitability model for Redang Marine Park using multibeam echosounder data: Testing different spatial resolutions and analysis window sizes

Muhamad

Hasan

Said³

et al. 2021

PLoS ONE

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Integrating Multibeam Echosounder (MBES) data (bathymetry and backscatter) and underwater video technology allows scientists to study marine habitats. However, use of such data in modeling suitable seagrass habitats in Malaysian coastal waters is still limited. This study tested multiple spatial resolutions (1 and 50 m) and analysis window sizes (3 × 3, 9 × 9, and 21 × 21 cells) probably suitable for seagrass-habitat relationships in Redang Marine Park, Terengganu, Malaysia. A maximum entropy algorithm was applied, using 12 bathymetric and backscatter predictors to develop a total of 6 seagrass habitat suitability models. The results indicated that both fine and coarse spatial resolution datasets could produce models with high accuracy (>90%). However, the models derived from the coarser resolution dataset displayed inconsistent habitat suitability maps for different analysis window sizes. In contrast, habitat models derived from the fine resolution dataset exhibited similar habitat distribution patterns for three different analysis window sizes. Bathymetry was found to be the most influential predictor in all the models. The backscatter predictors, such as angular range analysis inversion parameters (characterization and grain size), gray-level co-occurrence texture predictors, and backscatter intensity levels, were more important for coarse resolution models. Areas of highest habitat suitability for seagrass were predicted to be in shallower (<20 m) waters and scattered between fringing reefs (east to south). Some fragmented, highly suitable habitats were also identified in the shallower (<20 m) areas in the northwest of the prediction models and scattered between fringing reefs. This study highlighted the importance of investigating the suitable spatial resolution and analysis window size of predictors from MBES for modeling suitable seagrass habitats. The findings provide important insight on the use of remote acoustic sonar data to study and map seagrass distribution in Malaysia coastal water.

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Temporal variability of a protected multispecific tropical seagrass meadow in response to environmental change

Cited by 14 publications

References 57 publications

The Last Two Remaining Populations of the Critically Endangered Estuarine Pipefish Are Inbred and Not Genetically Distinct

The Last Two Remaining Populations of the Critically Endangered Estuarine Pipefish Are Inbred and Not Genetically Distinct

Social-ecological system analysis of an invertebrate gleaning fishery on the island of Unguja, Zanzibar

Seagrass habitat suitability model for Redang Marine Park using multibeam echosounder data: Testing different spatial resolutions and analysis window sizes

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