SOEST Contribution List (as of July 21, 2022)
11497 Falkenberg, J. J., et al. [K. H. Rubin], 2022, Spatial variations in magmatic volatile influx and fluid boiling in submarine hydrothermal systems: Insights from sulfide chemistry at Niuatahi caldera, Tonga rear-arc, Geochem. Geophys. Geosys., doi: 10.1029/2021GC010259 (in press).
11498 Haase, K. M., et al. [K. H. Rubin], 2022, Effects of the hydrous domain in the mantle wedge on magma formation and mixing at the Northeast Lau Spreading Centre, SW Pacific, Geochem. Geophys. Geosys., 23, e2021GC010066. https://doi.org/10.1029/2021GC010066.
11499 Gelippi, M., et al. [B. N. Popp], 2022, Isotopic composition of the eastern gray whale epidermis indicates contribution of prey outside Arctic feeding grounds, Sci. Rep. (in press).
11500 Chen, Y.-L., C.-K. Wang, C.-C. Tu, F. Hsiao, and P.-L. Lin, 2022, Revisiting a Mei-Yu front associated with heavy rainfall over Taiwan during 6–7 June 2003, Atmospheres (in press).
11501 Jiang, L., T. Li, and Y.-G. Ham, 2022, Critical role of tropical north Atlantic SSTA in boreal summer in affecting subsequent ENSO evolution, Geophys. Res. Lett. (in press).
11502 Bruno, B. C., D. Tachera, J. Engels, and S. K. Rowland, 2022, A campus huaka‘i: Weaving geological, historical and cultural perspectives in Hawai‘i, Proc. 8th Int. Conf. Higher Education Advances (in press).
11503 Price, A. A., et al. [J. G. Konter, J. M. Sinton], 2022, Distinguishing volcanic contributions to the overlapping Samoan and Cook-Austral hotspot tracks, J. Petrol., 63(5), egac032, https://doi.org/10.1093/petrology/egac032.
11504 Rooney, T. O., et al. [J. G. Konter], 2022, Constraining the isotopic endmembers contributing to 1.1 Ga Keweenawan large igneous province magmatism, Contrib. Mineral. Petrol., 177(4), 49, https://doi.org.10.1007/s00410-022-01907-8.
11505 Jeong, H., H.-S. Park, M. F. Stuecker, and. S.-W. Yeh, 2022, Record low Arctic sea ice extent in 2012 linked to two-year La Niña-driven sea surface temperature pattern, Geophys. Res. Lett., 49(9), e2022GL098385, https://doi.org/10.1029/2022GL098385.
11506 Drury, C., et sl. [N. K. Bean, C. I. Harris, J. R. Hancock, J. Huckeba, T. Roach, R. D. Gates], 2022, Intrapopulation adaptive variance supports thermal tolerance in a reef-building coral, Commun. Biol., HIMB-1886 (in press).
11507 Sparagon, W. J., et al. [C. E. Nelson], 2022, Fine scale transitions of the microbiota and metabolome along the gastrointestinal tract of herbivorous fishes, Anim. Microbiome, 4, 33, SG JC-21-29, https://doi.org/10.1186/s42523-022-00182-z.
11508 Harris, A. J. L., S. K. Rowland, and M. O. Chevrel, 2022, The anatomy of channel-fed ‘a‘a lava flow system, Bull. Volcanol. (accepted).
11509 Coleman, R. R., and B. W. Bowen, 2022, Genomic assessment of an endemic Hawaiian surgeonfish, Acanthurus triostegus sandvicensis, reveals high levels of connectivity and fine-scale population structure, Coral Reefs, HIMB-1887, doi: 10.1007/s00338-022-02257-4 (in press).
11510 Ultee, L., S. Coats, and J. MacKay, 2022, Glacial runoff buffers droughts through the 21st century, Earth Syst. Dynam. (in press).
11511 Zhang, H., W. Zhang, X. Geng, F. Jiang, and M. F. Stuecker, 2022, Seasonally modulated El Niño precipitation response in the eastern Pacific and its dependence on El Niño flavors, J. Climate (in press).
11512 Yamashita, K., et al. [K. F. Cheung], 2022, Modeling of sediment transport in rapidly-varying flow for coastal morphological changes caused by tsunamis, Mar. Geol. (accepted).
11513 Chase, A., and P. Wessel, 2022, Analysis of Pacific hotspot chains, Geochem. Geophys. Geosyst., doi: 10.1029/2021GC010225 (in press).
11514 Wu, Y.-K., C.-C. Hong, T. Li, and A.-Y. Huang, 2022, Role of low-frequency wind variability in inducing WWBs during the onset of super El Niños, Clim. Dyn. (in press).
11515 Masunaga, R., and N. Schneider, 2022, Surface wind responses to mesoscale sea surface temperature over western boundary current regions assessed by spectral transfer functions, J. Atmos. Sci. (in press).
11516 Liu, C., W. Zhang, F.-F. Jin, M. F. Stuecker, and L. Geng, 2022, Equatorial origin of the observed tropical Pacific quasi-decadal variability from ENSO nonlinearity, Geophys. Res. Lett. (in press).
11517 Chu, P.-S., and H. Murakami, 2022, Climate Variability and Tropical Cyclone Activity, Cambridge University Press, UK, 320 p, https://doi.org/10.1017/9781108586467.
11518 Rahnke, S. A., J. R. Hancock, N. J. Munk, C. Caruso, and C. Drury, 2022, Optimizing sexual reproduction of Montipora capitata for restoration: effects of abiotic conditions and light acclimation on juvenile survival and growth, Mar. Ecol. Progr. Ser., HIMB-1889 (in press).
11519 Santer, B. D., et al. [M. F. Stuecker], 2022, Robust anthropogenic signal identified in the seasonal cycle of tropospheric temperature, J. Climate (in press).
11520 Li, T., and T. Wang, 2021, Impact of atmosphere–ocean interactions on propagation and initiation of boreal winter and summer intraseasonal oscillations, in Behera, S. K. (ed.), Tropical and Extratropical Air-Sea Interactions, Ch. 2, Elsevier, Cambridge, MA, p. 17-60, IPRC-1430, https://doi.org/10.1016/B978-0-12-818156-0.00011-3.
11521 Xu, C., et al. [R. A. Dunn], 2022, A seismic tomography, gravity, and flexure study of the crust and upper mantle structure of the Emperor Seamounts at Jimmu guyot, J. Geophys. Res.-Solid Earth, e2021JB023241, https://doi.org/10.1029/2021JB023241.
11522 Gong, Y., and T. Li, 2022, Comparison of southward shift mechanisms of equatorial westerly anomalies between EP and CP El Nino, Clim. Dyn. (in press).
11523 Kim, D., et al. [M. F. Stuecker], 2022, Weak future Hadley cell intensity changes due to compensating effects of tropical and extratropical radiative forcing, npj Clim. Atmos. Sci. (in press).
11524 Hull, D. K., and K. C. Ruttenberg, 2022, Dissolved organic phosphorus molecular weight fractionation and apparent bioavailability quantified via coupled sequential ultrafiltration and enzyme hydrolysis, Limnol. Oceanogr. Meth. (in press).
11525 Ward, L. A., et al. [B. R. Smith-Konter], 2022, Vertical postseismic deformation of the 2019 Ridgecrest earthquake sequence, J. Geophys. Res.-Solid Earth, 127, e2021JB023331, https://doi.org/10.1029/2021JB023331 (in press).
11526 Misra, A. K., et al. [S. J. Rowley, T. E. Acosta-Maeda, L. Dasiveira, G. Ravizza, K. Ohtaki, T. M. Weatherby, J. N. Porter], 2022, Biofinder detects biological remains in Green River fish fossils from Eocene epoch at video speed, Sci. Rep., 12, 10164, https://www.nature.com/articles/s41598-022-14410-8.pdf.
11527 Lupi, F., S. J. Rowley, M. Chyba, and M. Lanzetta, 2022, Reconstruction of tubular structures from 2.5D point clouds: A mesophotic gorgonian coral case study, ANZIAM J, 63(EMAC2021), C1-C14, https://doi.org/10.21914/anziamj.v63.17151.
11528 Rumpf, M. E., H. Needham, and S. A. Fagents, 2020, Thicknesses of lava flows in satellite images:Comparison of layered mare units with terrestrial analogs, Icarus, 350, 113853, HIGP-2460, https://doi.org/10.1016/j.icarus.2020.113853.
11529 Stack, K. M., et al. [S.A. Fagents], 2020, Photogeologic map of the Perseverance rover field site in Jezero crater constructed by the Mars 2020 Science Team, Space Sci. Rev., 216, 127, HIGP-2461, https://doi.org/10.1007/s11214-020-00739-x.
11530 Bell, J. F. III, et al. [S.A. Fagents], 2021, The Mars 2020 Perseverance rover mast camera zoom (Mastcam-Z) multispectral, stereoscopic imaging investigation, Space Sci. Rev., 217, 24, HIGP-2462, https://doi.org/10.1007/s11214-020-00755-x.
11531 Bejder, L., J. Higham, and D. Lusseau, 2022, Tourism and research impacts on marine mammals: A bold future informed by research and technology. In Notarbartolo di Sciara, G., and B. Würsig (eds.), Ethology and Behavioral Ecology of Marine Mammals: The Evolving Human Factor, Springer Nature, Cham, Switzerland, p. 255–275, HIMB-1890.
11532 Nicholson, K., M. van Aswegen, N. Loneragan, and L. Bejder, 2022, Demographics and viability of an estuarine community of Indo-Pacific bottlenose dolphins, Mar. Mamm. Sci., HIMB-1891 (in press).
11533 Kiszka, J. J., L. Bejder, R. Davis, R. Harcourt, M. Meekan, D. H. Rodriguez, and K. A. Stockin, 2022, Small cetacean conservation: current challenges and opportunities, Front. Mar. Sci., HIMB-1892 (in press).
11534 Miyahira, I. C., et al. [R. H. Cowie], 2022, The conservation of non-marine molluscs in South America: where we are and how to move forward, Biodivers. Conserv. (in press).
11535 Hoban, M. L., et al., 2022, Skimming for barcodes: Rapid production of mitochondrial genome and nuclear ribosomal repeat reference markers through shallow shotgun sequencing, PeerJ (in press).
11536 Tucker, S. J., et al. [C. S. Sullivan, O. Ramfelt, Y. M. Rii, M. Rappé], 2021, Spatial and temporal dynamics of SAR11 marine bacteria across a nearshore to offshore transect in the tropical Pacific Ocean, PeerJ, 9, e12274, doi: 10.7717/peerj.12274.
11537 Friedlander, A. M., et al., 2022, Nearshore marine biodiversity of Osa Peninsula, Costa Rica: where the ocean meets the rainforest, HIMB-1896, PLOS ONE (in press).
11538 Rowe, C. A., et al. [B. Howe, D. S. Luther], 2022, SMART cables observing the oceans and Earth, Mar. Tech. Soc. J. (accepted).
11539 Ma, C., and T. Li, 2022, An empirical model of tropical cyclone intensity forecast in the western north Pacific, J. Meteorol. Res. (in press).
11540 Torri, G., 2022, Isotopic equilibration in convective downdrafts, Geophys. Res. Lett. (in accepted).
11541 Zhao, S., and C. Karamperidou, 2022, Competing effects of eastern and central-western Pacific winds in the evolution of the 2017 extreme coastal El Niño, Geophys. Res. Lett. (in press).
11542 Wyman, D. A., J. L. Conroy, and C. Karamperidou, 2020, The tropical Pacific ENSO-mean state relationshipin climate models over the last millennium, J. Climate, 33(17), 7539-7551, https://doi.org/10.1175/JCLI-D-19-0673.1.
11543 Cai, W., et al. [C. Karamperidou], 2020, Climate impacts of the El Niño-Southern Oscillation on SouthAmerica, Nat. Rev. Earth Environ., 1, 215–231, https://doi.org/10.1038/s43017-020-0040-3.
11544 Pausata, F. S. R., D. Zanchettin, C. Karamperidou, R. Caballero, and D. S. Battisti, 2020, ITCZ shift andextratropical teleconnections drive ENSO response to volcanic eruptions, Sci. Adv., 6(23), doi:10.1126/sciadv.aaz5006.
11545 Quick, L. C., et al. [S.A. Fagents], 2022, Cryolava dome growth resulting from active eruptions on Jupiter’s moon Europa, Icarus, HIGP-2463 (in press).
11546 Watanabe, S., K. Hamilton, T. Sakazaki, and M. Nakano, 2022, First detection of the Pekeris internal global atmospheric resonance: Evidence from the 2022 Tonga eruption and from global reanalysis data, J. Atmos. Sci. (in press).