Gao, X., C. Bowler, and E. Kazamia. 2021. Iron metabolism st
Gao, X., C. Bowler, and E. Kazamia. 2021. Iron metabolism strategies in diatoms. J. Exp. Bot. 72: 2165-2180. [includes numerous Pseudo-nitzschia species]
Entries
Varanasi, U., V.L. Trainer, and E.J. Schumacker. 2021. Takin
Varanasi, U., V.L. Trainer, and E.J. Schumacker. 2021. Taking the long view for oceans and human health connection through community driven science. Internat. J. Environ. Res. Publ. Health 18: 2662. [includes Pseudo-nitzschia, domoic acid]
Twining, B.S., O. Antipova, P.D. Chappell, N.R. Cohen, J.E.
Twining, B.S., O. Antipova, P.D. Chappell, N.R. Cohen, J.E. Jacquot, E.L. Mann, A. Marchetti, D.C. Ohnemus, S. Rauschenberg, and A. Tagliabue. 2021. Taxonomic and nutrient controls on phytoplankton iron quotas in the ocean. Limnol. Oceanogr. Let. 6: 96-106. [includes Pseudo-nitzschia]
Nelis, J.L.L., D. Migliorelli, L. Mühlebach, S. Generelli, L
Nelis, J.L.L., D. Migliorelli, L. Mühlebach, S. Generelli, L. Stewart, C.T. Elliott, and K. Campbell. 2021. Highly sensitive electrochemical detection of the marine toxins okadaic acid and domoic acid with carbon black modified screen printed electrodes. Talanta 228: 22215.
Guallar, C., A. Chapelle, and C. Bacher. 2021. Realised nich
Guallar, C., A. Chapelle, and C. Bacher. 2021. Realised niche and suitability index highlight spatial and temporal distribution of toxic phytoplankton species. Mar. Ecol. Prog. Ser. 662: 15-34. [includes Pseudo-nitzschia fraudulenta, P. australis]
Moore, S.K., J.B. Mickett, G.J. Doucette, N.G. Adams, C.M. M
Moore, S.K., J.B. Mickett, G.J. Doucette, N.G. Adams, C.M. Mikulski, J.M. Birch, B. Roman, N. Michel-Hart, and J.A. Newton. 2021. An autonomous platform for near real-time surveillance of harmful algae and their toxins in dynamic coastal shelf environments. J. Mar. Sci. Eng. 9: 336. [discusses domoic acid, Pseudo-nitzschia australis, P. fraudulenta, P. multiseries, P. pungens]
Houliez, E., S. Lefebvre, A. Dessier, M. Huret, E. Marquis,
Houliez, E., S. Lefebvre, A. Dessier, M. Huret, E. Marquis, M. Bréret, and C. Dupuy. 2021. Spatio-temporal drivers of microphytoplankton community in the Bay of Biscay: do species ecological niches matter? Prog. Oceanogr. 194: 102558. [includes Pseudo-nitzschia spp.]
Sala, S.E., A.A. Vouilloud, C.A. Popovich, M.V. Sanchez-Puer
Sala, S.E., A.A. Vouilloud, C.A. Popovich, M.V. Sanchez-Puerta, G.O. Almandoz, B.M. Coy, N.G. Montoya, and P. Leonardi. 2021. Molecular, morphological, and toxinological characterizations of an Argentinean strain of Halamphora coffeaeformis with potential biotechnological applications. J. Appl. Phycol. 33: 799-806. [no domoic acid was detected in this strain of H. coffeaeformis]
Twining, B.S., O. Antipova, P.D. Chappell, N.R. Cohen, J.E.
Twining, B.S., O. Antipova, P.D. Chappell, N.R. Cohen, J.E. Jacquot, E.L. Mann, A. Marchetti, D.C. Ohnemus, S. Rauschenberg, and A. Tagliabue. 2021. Taxonomic and nutrient controls on phytoplankton iron quotas in the ocean. Limnol. Oceanogr. Let. 6: 96-106. [includes Pseudo-nitzschia]
Mann, D.G., R. Trobajo, S. Sato, C. Li, A. Witkowski, F. Rim
Mann, D.G., R. Trobajo, S. Sato, C. Li, A. Witkowski, F. Rimet, M.P. Ashworth, R.M. Hollands, and EC. Theriot. 2021. Ripe for reassessment: a synthesis of available molecular data for the speciose diatom family Bacillariaceae. Mol. Phylogenet. Evol. 158: 106985. [includes Pseudo-nitzschia]