Climate and watershed land use as drivers of change in phytoplankton community structure and ecosystem function

Hayes, Nicole M.

23 June 2015

No description available.

Biogeochemistry

Aquatic Sciences

Ecology

Limnology

climate change

land use

cyanobacteria

phytoplankton

nitrogen fixation

microcystin

toxin production

nutrient limitation

ecosystem process

Nitrogen nutrition of Alexandrium tamarense : using δ¹⁵N to track nitrogen source used for growth

Smith, Christa Belle

03 September 2009

Alexandrium tamarense is a harmful algal species that can produce saxitoxins, a suite of powerful neurotoxins that bioaccumulate up the food chain and can have severe economic and health impacts. With harmful algal blooms increasing temporally and spatially, it is important for us to understand the relationship between harmful algal blooms and nutrients, particularly nitrogen from anthropogenic sources. To this end, the stable nitrogen isotopic composition (δ¹⁵N) of medium nitrate, algal cells and toxin in both nitrogen-replete and nitrogen-limited batch cultures of A. tamarense were measured in order to assess the potential for using the δ¹⁵N of the toxin as a tracer of the nitrogen source used for growth. A. tamarense cells grown under nitrate-replete conditions were depleted by 1.5‰ relative to the growth medium, and saxitoxin was depleted by 1.5‰ relative to the whole cells. Under nitrate-limiting conditions, the isotopic difference between cells and saxitoxin changed as nitrate in the growth medium was depleted, indicating uncoupling of toxin synthesis and cell growth rates under changing external nutrient conditions. Determination of the absolute magnitude of the isotopic differences between the medium nitrate and either the cells or the saxitoxin was confounded by 1) using two different nitrate sources – one nitrate source was used to grow the inoculum and a different nitrate source was used for the experimental medium - with different ‰ values and 2) the presence of an unidentified, isotopically-light, nitrogen blank in the low-nitrate medium samples. I conclude that STX nitrogen isotope values have the potential to be used as nitrogen source indicators. However, overall fractionation between whole cells and STX is unknown due to the uncoupling between cell growth and STX synthesis observed during my nitrogen-limited experiment. Based on previous research on cell growth and toxin production dynamics under different nutrient regimes, it is also reasonable to assume that the observed results here may differ if a different nitrogen source was utilized by the cells for STX production. Further research could include isotope analysis of cultures grown on different nitrogen sources, such as ammonium and urea; isotopic analysis of additional compounds, such as amino acids; or use of additional stable isotopes, such as C or O. / text

Alexandrium

tamarense

harmful algal blooms

neurotoxins

saxitoxin

nutrients

toxin

nitrogen

batch culture

nitrate

stable isotopes

anthropogenic

eutrophication

tracer

isotope analysis

toxin production

STX

PSP

paralytic shellfish poison

red tide

chromatography

spongy cadmium

ammonium diffusion