Effects of the Epiphytic Bryozoan Membranipora Spp. on the Photosynthetic Performance and Growth of the Giant Kelp Macrocystis Pyrifera PDF Download
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Author: Brian Cohn (Graduate student) Publisher: ISBN: Category : Languages : en Pages : 37
Book Description
Giant kelps are among the most productive marine macrophytes and can alter surface water chemistry through photosynthesis and respiration. Along the California coast, Macrocystis pyrifera is the dominant kelp species and is commonly encrusted by the bryozoan Membranipora spp., which forms a crustose, opaque layer on kelp thalli. Reduction of primary production by this bryozoan could have implications for kelp growth and surface water chemistry via the production of oxygen and uptake of carbon within kelp forests. The effects of bryozoan encrustation on growth were measured in situ using a hole punch method. Effects on primary production were investigated by measuring dissolved oxygen production in situ and in the laboratory using sealed respirometry chambers that included artificial shading of blades to mimic bryozoan encrustation and measuring pigment concentration. Patterns of Membranipora spp. abundance and photosynthetic pigment concentration in kelp blades were also examined in a kelp forest in Santa Barbara, CA over the course of a year to understand potential impacts and patterns of Membranipora encrustation over longer periods. Growth surveys revealed that blade age, and not bryozoans, was the main factor affecting growth rates although encrusted blades showed a slightly greater decline in blade length. In lab experiments, O2 production rates of non-encrusted blades was up to 2 times greater than encrusted blades, while O2 consumption rates were up to 1.5 times greater for encrusted blades due to bryozoan respiration. Artificial shading of blades did not affect oxygen production rates, but encrusted blades showed decreased pigment concentrations at increasing levels of bryozoan encrustation. Relative abundances of Membranipora spp. were highest in the summer months, and decreased pigment concentrations were correlated with older blades and higher presence of Membranipora spp. These results suggest that bryozoan encrustation can significantly decrease primary productivity of M. pyrifera which may translate to reduced CO2 uptake. With the suggestion that kelp forests may serve to locally ameliorate against rising CO2 in surface waters and the widespread and increasing abundance of Membranipora spp. in some regions, bryozoan encrustation should be taken into consideration when evaluating the uptake potential of CO2 by giant kelp.
Author: Brian Cohn (Graduate student) Publisher: ISBN: Category : Languages : en Pages : 37
Book Description
Giant kelps are among the most productive marine macrophytes and can alter surface water chemistry through photosynthesis and respiration. Along the California coast, Macrocystis pyrifera is the dominant kelp species and is commonly encrusted by the bryozoan Membranipora spp., which forms a crustose, opaque layer on kelp thalli. Reduction of primary production by this bryozoan could have implications for kelp growth and surface water chemistry via the production of oxygen and uptake of carbon within kelp forests. The effects of bryozoan encrustation on growth were measured in situ using a hole punch method. Effects on primary production were investigated by measuring dissolved oxygen production in situ and in the laboratory using sealed respirometry chambers that included artificial shading of blades to mimic bryozoan encrustation and measuring pigment concentration. Patterns of Membranipora spp. abundance and photosynthetic pigment concentration in kelp blades were also examined in a kelp forest in Santa Barbara, CA over the course of a year to understand potential impacts and patterns of Membranipora encrustation over longer periods. Growth surveys revealed that blade age, and not bryozoans, was the main factor affecting growth rates although encrusted blades showed a slightly greater decline in blade length. In lab experiments, O2 production rates of non-encrusted blades was up to 2 times greater than encrusted blades, while O2 consumption rates were up to 1.5 times greater for encrusted blades due to bryozoan respiration. Artificial shading of blades did not affect oxygen production rates, but encrusted blades showed decreased pigment concentrations at increasing levels of bryozoan encrustation. Relative abundances of Membranipora spp. were highest in the summer months, and decreased pigment concentrations were correlated with older blades and higher presence of Membranipora spp. These results suggest that bryozoan encrustation can significantly decrease primary productivity of M. pyrifera which may translate to reduced CO2 uptake. With the suggestion that kelp forests may serve to locally ameliorate against rising CO2 in surface waters and the widespread and increasing abundance of Membranipora spp. in some regions, bryozoan encrustation should be taken into consideration when evaluating the uptake potential of CO2 by giant kelp.
Author: Katherine Kimberlin Arkema Publisher: ISBN: 9780549841852 Category : Languages : en Pages : 294
Book Description
I investigated the relationship between giant kelp, Macrocystis pyrifera, a large and dynamic structure-forming organism on temperate reefs, and the species that live beneath its canopy and on its surfaces. In particular, my research focused on how the attenuating effect of kelp on light influences the structure and dynamics of the understory community, and how the dampening effect of kelp on currents influences spatial variation in the abundance and demography of a suspension-feeding epiphyte, the colonial and encrusting bryozoan, Membranipora serrilamella.
Author: Gabriel Eduardo Rodriguez Publisher: ISBN: 9781321568509 Category : Languages : en Pages : 90
Book Description
I found that the natural course of progressive senescence in fronds can explain much of the variability in frond loss throughout a typical year in a Santa Barbara kelp bed, that kelp blades that have more access to light have shorter lifetimes (as predicted by leaf lifespan theory), and that ignoring the sub-lethal blade area losses can result in significant underestimates of net primary productivity. I believe that internal regulation of tissue turnover is an important mechanism by which giant kelp maximizes carbon gain in a changing environment and that adaptations that increase photosynthetic efficiency may be an important factor in the widespread success and dominance of Macrocystis.
Author: Brian Cohn (Graduate student)
Author: Brian Cohn (Graduate student)
Author: Katherine Kimberlin Arkema
Author: Richard Michael Greene
Author: Deborah Ann Wilson
Author: Steven R. Fain
Author: William Neilson Wheeler
Author: 
Author: David James Fretz
Author: Stephanie K. Clendennen
Author: Gabriel Eduardo Rodriguez