2019
DOI: 10.1002/lno.11160
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Recruitment of Arctic deep‐sea invertebrates: Results from a long‐term hard‐substrate colonization experiment at the Long‐Term Ecological Research observatory HAUSGARTEN

Abstract: For benthic marine invertebrates, recruitment strongly influences the composition and abundance of resulting communities. We present the results of a long‐term (1999–2017) colonization experiment at the Long‐Term Ecological Research observatory HAUSGARTEN in the Fram Strait (Arctic Ocean, 79°N, 04°E, 2500 m water depth). Recruitment panels were constructed from plastic and brick and deployed attached to a metal frame in 1999. The experiment was monitored using a remotely operated vehicle in 2003 and 2011 and r… Show more

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Cited by 15 publications
(15 citation statements)
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“…Table 6 shows a comparison of litter densities and the proportion of plastics among studies on the deep seafloor. Most of the items recorded were only observed once and may have been eaten or moved by epibenthic organisms or bottom currents (on average 7.8 ± 0.9 cm s −1 , Meyer-Kaiser et al, 2019). Fragmentation into smaller sizes including microplastics is another possibility although environmental conditions in the deep sea such as low temperatures, the absence of UV light and weak currents may slow down this process compared with other realms.…”
Section: Discussion Temporal Trends In Litter Densitymentioning
confidence: 99%
“…Table 6 shows a comparison of litter densities and the proportion of plastics among studies on the deep seafloor. Most of the items recorded were only observed once and may have been eaten or moved by epibenthic organisms or bottom currents (on average 7.8 ± 0.9 cm s −1 , Meyer-Kaiser et al, 2019). Fragmentation into smaller sizes including microplastics is another possibility although environmental conditions in the deep sea such as low temperatures, the absence of UV light and weak currents may slow down this process compared with other realms.…”
Section: Discussion Temporal Trends In Litter Densitymentioning
confidence: 99%
“…In particular, the process of metamorphosis from the cystidean to the pentacrinoid stage is similar across most feather stars, with the orals giving rise to the brachials and the basals and radials forming the calyx (Amemiya et al, 2016; Barbaglio et al, 2012; Comeau et al, 2017; Haig & Rouse, 2008; Pertossi et al, 2019). In fact, our specimens were previously (incorrectly) identified as Bathycrinus carpenterii (Comatulida: Bourgueticrininae) by Meyer‐Kaiser et al, (2019) because of a strong resemblance to the cystidean of B. gracilis described by A.M. Clark (1977). Diagnostic characteristics that allowed the identification of our specimens as P. prolixa were only apparent in the oldest pentacrinoid specimens.…”
Section: Discussionmentioning
confidence: 93%
“…Specimens were collected in the LTER (Long‐Term Ecological Research) observatory HAUSGARTEN in the eastern Fram Strait (Soltwedel et al, 2005, 2015). Cystidean and pentacrinoid stages of Poliometra prolixa were collected on panels as part of a recruitment experiment at 79°4’N, 4°8’E, 2467 m depth (Figure 1; Meyer‐Kaiser et al, 2019). The recruitment experiment consisted of a hexagonal metal frame (1.6 m high, 90 cm on a side) with 20 brick (24 × 11.5 cm) and 20 Perspex panels (25 × 25 cm) at heights of 25, 60, and 90 cm above the seafloor.…”
Section: Methodsmentioning
confidence: 99%
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