Your search keyword '"S. F. Riseman"' showing total 3 results

1. Effects of iron concentration on pigment composition in Phaeocystis antarctica grown at low irradiance

Author

Peter N. Sedwick, Nathan S. Garcia, S. F. Riseman, and Giacomo R. DiTullio

Subjects

Biogeochemical cycle, biology, fungi, chemistry.chemical_element, Photosynthetic pigment, biology.organism_classification, chemistry.chemical_compound, Pigment, Oceanography, chemistry, Algae, visual_art, visual_art.visual_art_medium, Environmental Chemistry, Fucoxanthin, Composition (visual arts), Autotroph, Carbon, Earth-Surface Processes, Water Science and Technology

Abstract

Interpretation of photosynthetic pigment data using iterative programs such as CHEMTAX are widely used to examine algal community structure in the surface ocean. The accuracy of such programs relies on understanding the effects of environmental parameters on the pigment composition of taxonomically diverse algal groups. Phaeocystis antarctica is an important contributor to total autotrophic production and the biogeochemical cycling of carbon and sulfur in the Southern Ocean. Here we report the results of a laboratory culture experiment in which we examined the effects of ambient dissolved iron concentration on the pigment composition of colonial P. antarctica, using a new P. antarctica strain isolated from the southern Ross Sea in December 2003. Low-iron ( 3) indicative of Fe stress. We also observed that the ratio of fucoxanthin to 19′-hexanoyloxyfucoxanthin (Fuco:Hex ratio) was highly correlated (r 2 = 0.82) with initial dissolved Fe concentration, with Fuco:Hex ratios

Published

2007

2. Evidence for high iron requirements of colonial Phaeocystis antarctica at low irradiance

Author

Peter N. Sedwick, S. F. Riseman, Nathan S. Garcia, Giacomo R. DiTullio, and Chris M. Marsay

Subjects

Chlorophyll a, Biomass (ecology), biology, fungi, Irradiance, biology.organism_classification, chemistry.chemical_compound, Oceanography, Algae, chemistry, Phytoplankton, Environmental Chemistry, Ecosystem, Seawater, Growth rate, Earth-Surface Processes, Water Science and Technology

Abstract

We have carried out field and laboratory experiments to examine the iron requirements of colonial Phaeocystis antarctica in the Ross Sea. In December 2003, we performed an iron/light-manipulation bioassay experiment in the Ross Sea polynya, using an algal assemblage dominated by colonial Phaeocystis antarctica, collected from surface waters with an ambient dissolved Fe concentration of ∼0.4 nM. Results from this experiment suggest that P. antarctica growth rates were enhanced at high irradiance (∼50% of incident surface irradiance) but were unaffected by iron addition, and that elevated irradiance mediated a significant decrease in cellular chlorophyll a content. We also conducted a laboratory iron dose–response bioassay experiment using a unialgal, non-axenic strain of colonial P. antarctica and low-iron (

Published

2007

3. Phytoplankton iron limitation in the Humboldt Current and Peru Upwelling

Author

S. F. Riseman, J. Conn, Richard S. Weaver, M. E. Geesey, Eden L. Rue, Kenneth W. Bruland, Geoffrey J. Smith, G. F. Firme, Giacomo R. DiTullio, Clinton E. Hare, Yaohong Zhang, M. B. Alm, J. M. Maucher, Charles G. Trick, and David A. Hutchins

Subjects

Biogeochemical cycle, Chlorophyll a, Aquatic Science, Photosynthetic efficiency, Oceanography, Boundary current, chemistry.chemical_compound, Nutrient, Nitrate, chemistry, Phytoplankton, Environmental science, Upwelling

Abstract

We investigated phytoplankton Fe limitation using shipboard incubation experiments in the high-nutrient South American eastern boundary current regime. Low ambient Fe concentrations (;0.1 nM) in water collected from the Humboldt and Peru Currents were supplemented with a range of added Fe levels up to 2.5 nM. Phytoplankton chlorophyll a, photosystem II photosynthetic efficiency, and nitrate and phosphate drawdown increased in proportion to the amount of Fe added. The Humboldt Current algal community after Fe additions included colonial and flagellated Phaeocystis globosa and large pennate diatoms, whereas the Peru Upwelling assemblage was dominated by coccolithophorids and small pennate diatoms. Apparent half-saturation constants for growth of the two communities were 0.17 nM Fe (Humboldt Current) and 0.26 nM Fe (Peru Upwelling). Net molar dissolved Si(OH)4 : NO drawdown ratios were low in both experiments (;0.2‐0.7), but net particulate silica to nitrogen production 2 3 ratios were higher. Fe limitation decreased net NO : PO utilization ratios in the Humboldt Current incubation to 2 32 34 well below Redfield values. Phytoplankton community sinking rates were decreased by Fe additions in the Peru Upwelling, suggesting potential Fe effects on carbon export. Our results confirm that primary producers in the Peru Upwelling/Humboldt Current system can be limited by Fe, but the biological and biogeochemical consequences of Fe limitation differ from Fe-limited California coastal upwelling waters that have been previously studied.

Published

2002