Dynamics of productivity in naturally structured macroalgal assemblages: importance of canopy structure on light-use efficiency

Tait, Leigh W.; Schiel,

doi:10.3354/meps08909

Cited by 54 publications

(60 citation statements)

References 43 publications

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“…37 . On the contrary, Tait and Schiel (2011) demonstrated that the structural 54 differences of primary producers, but also their location in the community assemblage could 55 lead to an enhancement of the global primary production. Therefore, all these interactions 56 play a fundamental role and need to be accounted for when investigating community 57 metabolism, as highlighted by Migné et al (2015a).…”

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confidence: 99%

Metabolic activity of intertidal Fucus spp. communities: evidence for high aerial carbon fluxes displaying seasonal variability

2015

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Metabolic activity of intertidal Fucus spp. communities: evidence for high aerial carbon fluxes displaying seasonal variability

2015

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“…(1) did not model the data at either low or high PFDs. A similar response was recorded for a mixed-canopy of Cysto phora tortulosa and Hormosira banksii, in which case P max was not achieved at PFDs of 2000 µmol photons m -2 s -1 (Tait & Schiel 2011); those authors were also unable to apply 'traditional' P vs. E models to their data. The explanation for these trends is that when growing in canopies, seaweeds self-shade: while the uppermost blades in a canopy may reach P max , or even exhibit photoinhibition, the lower blades will receive much less light and exhibit un-saturated rates of photosynthesis (Middelboe & Binzer 2004).…”

Section: Discussionmentioning

confidence: 57%

“…m -2 for Xiphophora was not seen at 41 ind. m -2 , but it is possible that if we had used higher PFDs we may have observed a pattern similar to Tait & Schiel (2011) and to that for the 13 ind. m -2 treatment in this study.…”

Section: P-e Curves and Photosynthetic Parametersmentioning

confidence: 86%

Photosynthetic response of monospecific macroalgal stands to density

Richards¹,

Hurd²,

Pritchard³

et al. 2011

Aquat. Biol.

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Photosynthesis by benthic marine macroalgae makes an important contribution to the productivity of coastal seas. Quantification of photosynthesis and productivity of macroalgal assemblages is therefore important in understanding ecosystem functioning in coastal seas and providing realistic values for coastal productivity in global models. Estimates of macroalgal productivity are often based on the photosynthetic characteristics of thallus pieces or whole thalli, and not on those of communities. Such methods may overestimate rates of productivity as they do not account for neighborhood shading effects that may reduce photosynthetic rates in macroalgal stands that typically have high densities. In order to determine whether productivity estimates based on individuals differ from those based on communities, a controlled laboratory experiment was conducted with 3 dominant sub-canopy macroalgal species (Cystophora scalaris, Xiphophora gladiata and Undaria pinnatifida) from southern New Zealand. Photosynthetic parameters (initial slope of the photosynthesis vs. irradiance [P-E] curve α, saturation irradiance E k , maximum rate of photosynthesis P max and darkrespiration R d ) were obtained via P-E experiments using a custom-built respirometry chamber for a range of densities that corresponded to the minimum, average and maximum densities of these species in the field. A 5 to 7-fold decrease in P max was observed when the density of the algal stand was above 1 ind. m -2. R d and α were also lower in communities than for individuals. Results illustrate that estimates based on single specimens substantially overestimate productivity and we recommend that the densities used in experiments reflect those observed in the field.KEY WORDS: Density · Photosynthesis · Primary production · Respiration · Seaweed · New Zealand · Cystophora scalaris · Undaria pinnatifida · Xiphophora gladiata Resale or republication not permitted without written consent of the publisherAquat Biol 13: [41][42][43][44][45][46][47][48][49] 2011 P max is reached; R d ; and β, the level of photoinhibition at high irradiances (Falkowski & Raven 2007) (Table 1).The photosynthetic parameters derived from P-E curves can be used to predict rates of primary production at different irradiances (Falkowski & Raven 2007). The most accurate approach is to use whole seaweeds, so that they remain connected to their storage re serves, which, for large seaweeds such as species from the Orders Fucales and Laminariales, may be located in the holdfast and stipe, i.e. for entire individuals the carbon and nitrogen sinks are still accessible (Gevaert et al. 2008). Consequently, for structurally complex seaweeds, photosynthetic responses ob tained from thallus pieces versus intact individuals can be quite different (Bin zer & Middelboe 2005, Middelboe et al. 2006, Sand-Jensen et al. 2007. Similarly, for nutrient uptake by members of the Fucales, the rates of thallus sections can be up to 10 times higher than those of whole algae (Harrison & Druehl 1982, Hurd & ...

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“…Although individual photosynthesis must influence the community response, individual metabolism was not expected to be closely related to community metabolism, because this represents a complex integrated response of many different species exposed to a wide range of local light conditions within the canopies (Middelboe and Binzer, 2004;Binzer and Middelboe, 2005;Middelboe et al, 2006). Tait and Schiel (2011) showed that layering within macroalgal assemblages plays a major role in maintaining net photosynthesis throughout the natural range of irradiance and even enhances photosynthesis at high irradiance. Tait and Schiel (2010) measured the underwater productivity of three fucoid assemblages.…”

Section: Variation In the Trends Of Photosynthetic Performance Accordmentioning

confidence: 99%

“…Johnson et al, 1974;Quadir et al, 1979;Dring and Brown, 1982). Since then, differences between some shallow-water macroalgae species have been shown to be smaller at the communities scale than experiments on single thallus pieces suggested (Binzer and Middelboe, 2005) and an increasing productivity of fucoid assemblages down a shore-height gradient has been shown (Tait and Schiel, 2011). These community-scale measurements were limited, however, to immerged conditions and trends might be different under peculiar conditions of the emersion periods.…”

Section: Introductionmentioning

confidence: 99%

Photosynthetic activity and productivity of intertidal macroalgae: In situ measurements, from thallus to community scale

et al. 2015

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), while they exhibited respectively 3 and 5 times higher gross productivity underwater. At the community scale, the low mid-shore zone of Fucus serratus had the highest mean gross productivity under emersion (47 mmol C m -2 h -1 ) while rates were higher for the uppermost than lowermost zone at the eastern site (average 20 and 6 mmol C m -2 h -1 respectively) and of the same order of magnitude for both zones at the western site (about 30). Finally, the variability of under emersion primary productivity among sites and seasons was reduced when the measurements were performed on entire communities compared to isolated individuals of the dominant species. Key wordsPrimary production, Rocky shores, Fucoids, Kelps Running page headProductivity of intertidal macroalgae

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Dynamics of productivity in naturally structured macroalgal assemblages: importance of canopy structure on light-use efficiency

Cited by 54 publications

References 43 publications

Metabolic activity of intertidal Fucus spp. communities: evidence for high aerial carbon fluxes displaying seasonal variability

Metabolic activity of intertidal Fucus spp. communities: evidence for high aerial carbon fluxes displaying seasonal variability

Photosynthetic response of monospecific macroalgal stands to density

Photosynthetic activity and productivity of intertidal macroalgae: In situ measurements, from thallus to community scale

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