Metallic elements and oxides and their relevance to Laurentian Great Lakes geochemistry

Aliff, Meagan; Reavie, Euan D.; Post, Sara; Zanko, Lawrence M

doi:10.7717/peerj.9053

Cited by 10 publications

(2 citation statements)

References 172 publications

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“…The majority of the total Co concentrations in Canadian High Arctic freshwaters were less than the relatively high detection limit of 17 nmol L -1 but the proportion in the subnanomolar range relevant to Co limitation of heterocyst frequency is unknown. Low Co in Arctic regions is expected because of low weathering rates caused by long periods of freezing temperatures and low precipitation (Statistics Canada, 2017) and the absence of mining, industrial activities and urbanization in most areas (Aliff et al, 2020). However, Co content in bedrock and overburden can vary regionally which would affect aquatic concentrations.…”

Section: Potential For Co Limitation Of Heterocyst Frequency In Canad...mentioning

confidence: 99%

Low cobalt limits cyanobacteria heterocyst frequency in culture but potential for cobalt limitation of frequency in nitrogen-limited surface waters is unclear

Shah,

Venkiteswaran,

Molot

et al. 2023

Preprint

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1. Impacts of three cobalt (Co) concentrations were examined on heterocyst frequency and growth rate in four diazotrophic cyanobacteria species in nitrogen (N)-depleted culture and growth rate in one non-diazotrophic species in N-replete culture. After 11 days in batch culture, heterocyst frequency (HF, % of all cells that are heterocysts) increased from 4.1-5.7% to 5.4-7.4% to 5.9-9.3% at 0.17, 17 and 170 nmol L -1 Co, implicating Co in heterocyst differentiation. Growth rate was not significantly affected by Co in any of the species suggesting that the impact of low Co on other metabolic pathways was minimized.2. Stoichiometric extrapolation of culture results to N-limited natural systems with lower nutrient concentrations infers that HF could be limited by sub-nanomolar Co concentrations.3. In experimentally fertilized N-limited Lake 227, mean summer HF in 2000-2020 was 3.4% (epilimnion) and 4.0% (metalimnion). However, in 2017 (the only year for which Co data are available) dissolved Co increased from 0.7 to 2.0 nmol L -1 during the bloom simultaneously with increasing HF and cyanobacteria biomass, hence, Co probably did not limit HF and biomass. HF was significantly higher after 2015 following a shift in dominant bloom species from Aphanizomenon schindlerii to smaller A. skujae. The smaller cell size may have required a higher HF in order to maintain a relatively constant supply rate of fixed N per unit biomass.4. Surveys of ambient Co in over 280 aquatic systems across Canada and elsewhere indicate that Co is sometimes low enough to theoretically limit HF in N-limited waters. However, numerous variables influence HF so a clear understanding of relationships between Co and HF in natural systems remains elusive.

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Section: Potential For Co Limitation Of Heterocyst Frequency In Canad...mentioning

confidence: 99%

Low cobalt limits cyanobacteria heterocyst frequency in culture but potential for cobalt limitation of frequency in nitrogen-limited surface waters is unclear

Shah,

Venkiteswaran,

Molot

et al. 2023

Preprint

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“…A comprehensive summary of the extensive literature on the geochemistry of metallic elements in the Great Lakes (Aliff et al 2020) shows how humans have directly altered trace metal cycling, especially through mining. Trace metal (Cu, Cd, Pb, Ni) concentrations from the sediments of the western basin of Lake Erie track overall level of anthropogenic perturbations, with a gradual increase in metal in sediments starting in 1880, a rapid rise in concentrations between 1950 and 1970, and a gradual and still incomplete return to lower levels thereafter (Yuan et 2015).…”

Section: Other Elementsmentioning

confidence: 99%

The Laurentian Great Lakes: A Biogeochemical Test Bed

Sterner

2021

Annu. Rev. Earth Planet. Sci.

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The Laurentian Great Lakes are vast, spatially heterogeneous, and changing. Across these hydrologically linked basins, some conditions approach biogeochemical extremes for freshwater systems anywhere. Some of the biogeochemical processes operate over nearly as broad a range of temporal and spatial scales as is possible to observe in freshwater. What we know about the biogeochemistry of this system is strongly influenced by an intense focus on phosphorus loading, eutrophication, and partial recovery; therefore, some important biogeochemical processes are known in detail while others are scarcely described. These lakes serve as a life support system for tens of millions of people, and they generate trillions of dollars of economic activity. Many biogeochemical changes that have occurred have surprised us. Biogeochemistry affects how these lakes perform these functions and should be a higher research priority. ▪ The biogeochemical functioning of the Great Lakes affects tens of millions of people and trillions of dollars of economy, but our knowledge of their biogeochemistry is fragmentary. ▪ The history of environmental damage and recovery in the Great Lakes is long and includes many surprises. ▪ Large lakes such as the Great Lakes combine characteristics of small lakes and the world's oceans, making them worthy objects of study to advance fundamental understanding. ▪ The Great Lakes are understudied relative to their scale and importance. Expected final online publication date for the Annual Review of Earth and Planetary Sciences, Volume 49 is May 28, 2021. Please see http://www.annualreviews.org/page/journal/pubdates for revised estimates.

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Long-term primary production trends in the Laurentian Great Lakes: a comparison of geochemical methods

et al. 2021

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Metallic elements and oxides and their relevance to Laurentian Great Lakes geochemistry

Cited by 10 publications

References 172 publications

Low cobalt limits cyanobacteria heterocyst frequency in culture but potential for cobalt limitation of frequency in nitrogen-limited surface waters is unclear

Low cobalt limits cyanobacteria heterocyst frequency in culture but potential for cobalt limitation of frequency in nitrogen-limited surface waters is unclear

The Laurentian Great Lakes: A Biogeochemical Test Bed

Long-term primary production trends in the Laurentian Great Lakes: a comparison of geochemical methods

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