J L Parrott
Overview
Explore the profile of J L Parrott including associated specialties, affiliations and a list of published articles.
Author names and details appear as published. Due to indexing inconsistencies, multiple individuals may share a name, and a single author may have variations. MedLuna displays this data as publicly available, without modification or verification
Snapshot
Snapshot
Articles
24
Citations
71
Followers
0
Related Specialties
Related Specialties
Top 10 Co-Authors
Top 10 Co-Authors
Published In
Affiliations
Affiliations
Soon will be listed here.
Recent Articles
1.
Vignet C, Frank R, Yang C, Shires K, Bree M, Sullivan C, et al.
Environ Pollut
. 2024 Sep;
362:124840.
PMID: 39241948
The oil sands area of northern Alberta has river sediments that contain natural bitumen. Eggs and fish in these rivers may be exposed to bitumen-related chemicals early in life. This...
2.
Matten K, Bartlett A, Milani D, Gillis P, Parrott J, Toito J, et al.
Environ Pollut
. 2020 Dec;
267:115604.
PMID: 33254677
Naphthalene sulfonic acids (NSAs) are used extensively in industrial applications as dispersants in dyes, rubbers, and pesticides, and as anti-corrosive agents in coatings, gels, and sealants. This study examined the...
3.
Matten K, Gillis P, Milani D, Parrott J, Bartlett A, Toito J, et al.
Chemosphere
. 2020 Oct;
264(Pt 1):128391.
PMID: 33032227
Naphthalene sulfonic acids (NSAs) are used primarily as additives in a wide range of industrial products (e.g., rubber materials, coatings, sealants, fuels, paints). Based on modeled physicochemical properties, NSAs would...
4.
Matten K, Parrott J, Bartlett A, Gillis P, Milani D, Toito J, et al.
Sci Total Environ
. 2020 Sep;
741:140260.
PMID: 32886965
Dinonylnaphthalene sulfonic acids (NSAs) are high production volume chemicals that are used primarily as additives in a wide range of industrial products (i.e., coatings, sealants, fuels, metal-extractants, paints, rubber materials)....
5.
Hodson P, Wallace S, de Solla S, Head S, Hepditch S, Parrott J, et al.
Environ Pollut
. 2020 Aug;
266(Pt 2):115165.
PMID: 32827982
Ecological risk assessments (ERAs) of polycyclic aromatic compounds (PACs), as single congeners or in mixtures, present technical challenges that raise concerns about their accuracy and validity for Canadian environments. Of...
6.
Wallace S, de Solla S, Head J, Hodson P, Parrott J, Thomas P, et al.
Environ Pollut
. 2020 Jun;
265(Pt B):114863.
PMID: 32599329
Polycyclic aromatic compounds (PACs) are ubiquitous in the environment. Wildlife (including fish) are chronically exposed to PACs through air, water, sediment, soil, and/or dietary routes. Exposures are highest near industrial...
7.
Pinheiro M, Simmons D, Villella M, Tetreault G, Muir D, McMaster M, et al.
Environ Monit Assess
. 2020 May;
192(6):404.
PMID: 32472215
The St. Lawrence River, at Cornwall Ontario, has accumulated sediment contaminants, mainly mercury (Hg) and polychlorinated biphenyls (PCBs), from industrial point sources over many years. Although those sources are past,...
8.
Parrott J, Raine J, McMaster M, Hewitt L
Heliyon
. 2019 Nov;
5(9):e02509.
PMID: 31687598
In this study fathead minnow () embryo-larval stages were exposed to two oil sands tailings pond sediments which had previously been shown to decrease the survival of embryo-larval larval stages...
9.
Vignet C, Frank R, Yang C, Wang Z, Shires K, Bree M, et al.
Environ Pollut
. 2019 May;
251:246-256.
PMID: 31082609
The aim of this study was to investigate the long-term effects of a short exposure to natural sediments within the Athabasca oil sand formation to critical stages of embryo-larval development...
10.
Bauer A, Hewitt L, Parrott J, Bartlett A, Gillis P, Deeth L, et al.
Sci Total Environ
. 2019 Mar;
669:702-710.
PMID: 30893625
The process of surface mining and extracting bitumen from oil sand produces large quantities of tailings and oil sands process-affected water (OSPW). The industry is currently storing OSPW on-site while...