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  • 1
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    Unbekannt
    Country-level mangrove soil carbon stocks and losses (2017)
    PANGAEA
    In:  UTAH STATE UNIV
    Details
    Publikationsdatum: 2023-07-10
    Schlagwort(e): Aegiceras; Avicennia; Bruguiera; Carbon dioxid emissions, potential; Carbon loss, annual, potential; Ceripos; Conocarpus; Country; Description; Excoecaria; Group; Habitat loss, annual; Hemisphere; Heritiera; Kandelia; Laguncularia; LATITUDE; LONGITUDE; Lumnitzera; Mangrove area; Number of genera; Nypa; Reference/source; Rhizophora; Sample ID; Soil carbon stock; Sonneratia; Stock loss; Total stocks; Xylocarpus
    Materialart: Dataset
    Format: text/tab-separated-values, 33960 data points
    Standort Signatur Einschränkungen Verfügbarkeit
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    DATA PANGAEA
  • 2
    Digitale Medien
    Digitale Medien
    Influence of Ecklonia radiata kelp canopy on structure of macro-algal assemblages in Marmion Lagoon, Western Australia (1999)
    Springer
    Hydrobiologia 398-399 (1999), S. 275-283 
    Details
    ISSN: 1573-5117
    Schlagwort(e): Australia ; kelp ; Ecklonia radiata ; density ; macroalgal assemblage
    Quelle: Springer Online Journal Archives 1860-2000
    Thema: Biologie
    Notizen: Abstract A recent study of the influence of a wave exposure gradient on macroalgal assemblages associated with kelp stands in Marmion Lagoon, Western Australia found macroalgal communities had high spatial heterogeneity. Much of this heterogeneity was between replicate quadrats within sites and exposure level. The cause of such spatial heterogeneity is investigated further. Ninety 0.25 m2 quadrats were sampled from 9 sites (10 quadrats from each site) during the Australian autumn (April–May) 1996. The sites were nested in groups of 3 across a gradient in wave exposure. The quadrats were also grouped by density of adult Ecklonia radiata thalli, which is the local canopy forming kelp. Three categories were used: 〈2; 2–4; and 〉4 kelp thalli m−2. Eighty two species were observed, but only 19 species occurred in 〉10% of quadrats and a further 13 species in 5–10% of quadrats. This suggests that species were patchily distribu ted among quadrats. This patchy distribution was found to be greatest in quadrats with Ecklonia radiata densities 〈2, and least in quadrats with E. radiata densities 〉4. The major taxa contributing to this patchy distribution were the brown algae Lobophora variegata, Sargassum spinuligerum and Sargassum spp. juveniles, and the red algae Amphiroa anceps, Chauviniella coriifolia, Dictymenia sonderi, Heterodoxia denticulata, Jeannerettia pedicellata, Pterocladia lucida and Rhodymenia sonderi. Many of these species only occurred or were most abundant in areas of low kelp density. The results demonstrate that assemblage structure at local scales, between replicate quadrats, was influenced by density of the kelp canopy just as much as gradients in exposure to ocean swells between reef lines. Many species were influenced both by kelp density and exposure to swells.
    Materialart: Digitale Medien
    URL: http://dx.doi.org/10.1023/A:1017011124938
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    Artikel (Nationallizenzen)
    Volltext
  • 3
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    Unbekannt
    The use of Fick's First Law for predicting porewater nutrient fluxes under diffusive conditions (2001)
    Wiley
    In:  Hydrological Processes, 15 (13). pp. 2435-2451.
    Details
    Publikationsdatum: 2020-07-29
    Beschreibung: Porewater fluxes into or out of the sediments in aquatic systems are frequently estimated using Fick's First Law. This assumes that diffusive processes control the transport of nutrients. As a corollary, advection, bioturbation and chemical processes are assumed not to be significant. Through a series of sediment core incubations, this paper seeks to quantify the uncertainties involved in such assumptions. Duplicate sediment cores were collected from 28 sites along the Swan–Canning Estuary, returned to the laboratory and incubated under oxic or anoxic conditions. Porewater nutrient concentrations, sediment porosity and initial nutrient concentrations in the overlying water were measured. These parameters were used to estimate the expected nutrient fluxes via Fick's First Law. The estimated fluxes were then compared with measured fluxes of nutrients out of the sediments over the incubation period. Severe bioturbation occurred in several of the anoxic treatments, resulting in large releases of nutrients into the overlying water. Aside from these bioturbated cores, phosphate and ammonium fluxes under anoxic conditions are well predicted by Fick's First Law. Nitrate fluxes are predicted well under oxic conditions. For coarse sediments (D10 averaging 0·3 mm) and under redox conditions favourable for nutrient release, Fick's First Law predicted close to 100% of the observed fluxes. For finer grain sediments (D10 〈 0·01 mm), Fick's First Law overestimated the observed flux by up to 40%. Under unfavourable oxygen conditions, chemical retardation processes are likely to dominate fluxes, and the error associated with using Fick's First Law is increased. These results confirm the usefulness of using Fick's First Law for a baseline estimate of nutrient fluxes under favourable redox conditions. Much greater care must be taken when using Fick's First Law to estimate nutrient fluxes under unfavourable redox conditions, or under conditions when bioturbation is likely to be severe.
    Materialart: Article , PeerReviewed
    Format: text
    DOI: 10.1002/hyp.297
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  • 4
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    Unbekannt
    Impact of marine heatwaves on seagrass ecosystems (2021)
    Springer
    In:  In: Ecosystem collapse and climate change. , ed. by Canadell, J. G. and Jackson, R. B. Ecological studies, 241 . Springer, Cham, pp. 345-364, 20 pp. ISBN 978-3-030-71330-0
    Details
    Publikationsdatum: 2021-07-29
    Beschreibung: Seagrass meadows deliver important ecosystem services such as nutrient cycling, enhanced biodiversity, and contribution to climate change mitigation and adaption through carbon sequestration and coastal protection. Seagrasses, however, are facing the impacts of ocean warming and marine heatwaves, which are altering their ecological structure and function. Shifts in species composition, mass mortality events, and loss of ecosystem complexity after sudden extreme climate events are increasingly common, weakening the ecosystem services they provide. In the west coast of Australia, Shark Bay holds between 0.7 and 2.4% of global seagrass extent (〉4300 km2), but in the austral summer of 2010/2011, the Ningaloo El Niño marine heatwave resulted in the collapse of ~1300 km2 of seagrass ecosystem extent. The loss of the seagrass canopy resulted in the erosion and the likely remineralization of ancient carbon stocks into 2–4 Tg CO2-eq over 6 years following seagrass loss, increasing emissions from land-use change in Australia by 4–8% per annum. Seagrass collapse at Shark Bay also impacted marine food webs, including dugongs, dolphins, cormorants, fish communities, and invertebrates. With increasing recurrence and intensity of marine heatwaves, seagrass resilience is being compromised, underlining the need to implement conservation strategies. Such strategies must precede irreversible climate change-driven tipping points in ecosystem functioning and collapse and result from synchronized efforts involving science, policy, and stakeholders. Management should aim to maintain or enhance the resilience of seagrasses, and using propagation material from heatwave-resistant meadows to restore impacted regions arises as a challenging but promising solution against climate change threats. Although scientific evidence points to severe impacts of extreme climate events on seagrass ecosystems, the occurrence of seagrass assemblages across the planet and the capacity of humans to modify the environment sheds some light on the capability of seagrasses to adapt to changing ecological niches.
    Materialart: Book chapter , NonPeerReviewed
    Format: text
    DOI: 10.1007/978-3-030-71330-0_13
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    OceanRep: Buchkapitel
  • 5
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    Unbekannt
    Impact of seagrass establishment, industrialization and coastal infrastructure on seagrass biogeochemical sinks (2020)
    Elsevier
    Details
    Publikationsdatum: 2023-02-08
    Beschreibung: The study of a Posidonia sinuosa sedimentary archive has delivered a millenary record of environmental change in Cockburn Sound (Western Australia). Ecosystem change is a major environmental problem challenging sustainable coastal development worldwide, and this study shows baseline trends and shifts in ecological processes in coastal ecosystems under environmental stress. The concentrations and fluxes of biogeochemical elements over the last 3,500 years indicate that important changes in ecosystem dynamics occurred over the last 1,000 years, in particular after ~1900's, probably related to establishment of seagrass meadows in the area and to local and regional human activities (industry and coastal development), respectively. The establishment of seagrasses ~1,000 years ago in the area of study is supported by the appearance of Posidonia fibres from ~40 cm soil depth until the core top, higher δ13C values indicating a larger contribution of seagrass-matter to the soil organic carbon pool, and increased concentration of fine sediments driven by the effect of seagrass canopy in enhancing sedimentation. The comparison of organic carbon, nutrients and metal concentrations and fluxes between pre- and post-establishment of seagrasses shows that seagrass establishment resulted in up to 9-fold increase in the soil biogeochemical sink. In ~1900's, shifts in the concentrations of metals, carbonates, organic carbon, sediment grain size, and δ13C and δ15N values of the organic matter were detected, demonstrating an alteration in seagrass ecosystem functioning following the onset of European settlement. Anthropogenic activities, and in particular the construction of a causeway in 1970's, enhanced seagrass soil organic carbon and metal accumulation rates by 36- and 39-fold, respectively, showing that human-made structures can enhance the biogeochemical sink capacity of seagrasses. Here we reconstruct the impact of human activities on seagrass ecosystem dynamics and blue carbon, which can inform local management of Cockburn Sound and seagrass conservation for climate change mitigation and adaptation.
    Materialart: Article , PeerReviewed
    Format: text
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  • 6
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    Organic chemistry insights for the exceptional soil carbon storage of the seagrass Posidonia australis (2020)
    Elsevier
    Details
    Publikationsdatum: 2023-02-08
    Beschreibung: The high organic carbon (OC) stores in seagrass meadows have led to their recognition as significant Blue Carbon sinks, though the diagenetic conditions that enable OC retention in seagrass soils remain poorly understood. In this study, seagrass soils were sampled from a Posidonia australis meadow in Oyster Harbour (Albany; south-western Australia) to investigate the preservation of sedimentary OC. We analysed soil characteristics (colour, grain size and redox potential), radiocarbon age, and characterised the soil organic matter (OM) using solid state CP/MAS 13C NMR spectroscopy to examine the preservation of OM down the soil profile. There was minimal change in organic composition over 1,700 years of accumulation, indicating long-term OM preservation. Primarily, this preservation appears to be driven by the recalcitrance of seagrass detritus buried in anoxic soils. The majority (70–83%) of total sedimentary OM comprised components directly attributable to seagrass origins (lignin, carbohydrate and black carbon-like matter), while the remainder consisted mostly of protein, some of which may have been present in seagrass biomass, along with likely contributions from algae and microbes. Although black carbon originates from organic matter combustion, here we provide evidence that the 13C NMR signal identified as black carbon-like matter in our soils is possibly associated with seagrass-derived organic matter consisting of degraded lignin products or other non-pyrogenic aromatics. The increase in the relative abundance of this black carbon-like matter with aging suggests its selective preservation. The relative abundances of carbohydrates significantly decreased with age down core (i.e. they appeared to be selectively decomposed), while lignin and protein did not show any quantitative changes in relative abundance (non-selective preservation). These findings demonstrate the exceptional preservation of P. australis derived OC, which contributes to our understanding of the higher OC storage capacity of Posidonia compared to other seagrass species.
    Materialart: Article , PeerReviewed
    Format: text
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