| Year |
Citation |
Score |
| 2024 |
Coyle O, Vredenburg VT, Stillman JH. Interactive abiotic and biotic stressor impacts on a stream-dwelling amphibian. Ecology and Evolution. 14: e11371. PMID 38711490 DOI: 10.1002/ece3.11371 |
0.311 |
|
| 2022 |
King EE, Stillman JH. Mild temperatures differentiate while extreme temperatures unify gene expression profiles among populations of in California. Frontiers in Physiology. 13: 990390. PMID 36277198 DOI: 10.3389/fphys.2022.990390 |
0.365 |
|
| 2022 |
Armstrong EJ, Watson SA, Stillman JH, Calosi P. Elevated temperature and carbon dioxide levels alter growth rates and shell composition in the fluted giant clam, Tridacna squamosa. Scientific Reports. 12: 11034. PMID 35773289 DOI: 10.1038/s41598-022-14503-4 |
0.57 |
|
| 2022 |
King EE, Williams CM, Stillman JH. Hypoxia Decreases Thermal Sensitivity and Increases Thermal Breadth of Locomotion in the Invasive Freshwater Snail . Physiological and Biochemical Zoology : Pbz. 95: 251-264. PMID 35443148 DOI: 10.1086/719899 |
0.383 |
|
| 2022 |
Lam EK, Abegaz M, Gunderson AR, Tsukimura B, Stillman JH. Interactions Between Temperature Variability and Reproductive Physiology Across Traits in an Intertidal Crab. Frontiers in Physiology. 13: 796125. PMID 35350692 DOI: 10.3389/fphys.2022.796125 |
0.748 |
|
| 2021 |
McAlpine-Bellis E, Stillman JH, Tanner RL. Acclimation to future climate exposes vulnerability to cold extremes in intertidal sea hares. Integrative and Comparative Biology. PMID 33999175 DOI: 10.1093/icb/icab087 |
0.744 |
|
| 2020 |
Tanner R, Bowie R, Stillman J. Thermal exposure and transgenerational plasticity influence embryonic success in a bivoltine estuarine sea hare Marine Ecology Progress Series. 634: 199-211. DOI: 10.3354/Meps13207 |
0.705 |
|
| 2020 |
Yockachonis T, McKeon CS, Windsor AM, Stillman JH. Multiple paternity in the intertidal zone porcelain crab Petrolisthes cinctipes Randall, 1840 (Decapoda: Anomura: Porcellanidae) is a life-history strategy that increases fitness during heat stress Journal of Crustacean Biology. 40: 684-691. DOI: 10.1093/jcbiol/ruaa071 |
0.308 |
|
| 2019 |
Armstrong EJ, Tanner RL, Stillman JH. High Heat Tolerance Is Negatively Correlated with Heat Tolerance Plasticity in Nudibranch Mollusks. Physiological and Biochemical Zoology : Pbz. 92: 430-444. PMID 31192766 DOI: 10.1086/704519 |
0.782 |
|
| 2019 |
Wang T, Tanner R, Armstrong E, Lindberg D, Stillman J. Plasticity of foot muscle and cardiac thermal limits in the limpet Lottia limatula from locations with differing temperatures Aquatic Biology. 28: 113-125. DOI: 10.3354/Ab00714 |
0.746 |
|
| 2019 |
Gunderson AR, Abegaz M, Ceja AY, Lam EK, Souther BF, Boyer K, King EE, You Mak KT, Tsukimura B, Stillman JH. Hot Rocks and Not-So-Hot Rocks on the Seashore: Patterns and Body-Size Dependent Consequences of Microclimatic Variation in Intertidal Zone Boulder Habitat Integrative Organismal Biology. 1. DOI: 10.1093/iob/obz024 |
0.742 |
|
| 2019 |
Armstrong EJ, Dubousquet V, Mills SC, Stillman JH. Elevated temperature, but not acidification, reduces fertilization success in the small giant clam, Tridacna maxima Marine Biology. 167. DOI: 10.1007/S00227-019-3615-0 |
0.606 |
|
| 2019 |
Tanner RL, Faye LE, Stillman JH. Temperature and salinity sensitivity of respiration, grazing, and defecation rates in the estuarine eelgrass sea hare, Phyllaplysia taylori Marine Biology. 166. DOI: 10.1007/S00227-019-3559-4 |
0.721 |
|
| 2018 |
Barshis DJ, Birkeland C, Toonen RJ, Gates RD, Stillman JH. High-frequency temperature variability mirrors fixed differences in thermal limits of the massive coral (Dana, 1846). The Journal of Experimental Biology. PMID 30305375 DOI: 10.1242/Jeb.188581 |
0.371 |
|
| 2018 |
Armstrong EJ, Roa JN, Stillman JH, Tresguerres M. Symbiont photosynthesis in giant clams is promoted by V-type H-ATPase from host cells. The Journal of Experimental Biology. PMID 30065035 DOI: 10.1242/Jeb.177220 |
0.496 |
|
| 2018 |
Hill RW, Armstrong EJ, Inaba K, Morita M, Tresguerres M, Stillman JH, Roa JN, Kwan GT. Acid secretion by the boring organ of the burrowing giant clam, . Biology Letters. 14. PMID 29899125 DOI: 10.1098/Rsbl.2018.0047 |
0.622 |
|
| 2017 |
Gunderson AR, Tsukimura B, Stillman JH. Indirect Effects of Global Change: From Physiological and Behavioral Mechanisms to Ecological Consequences. Integrative and Comparative Biology. 57: 48-54. PMID 28881938 DOI: 10.1093/icb/icx056 |
0.694 |
|
| 2017 |
Gunderson AR, King EE, Boyer K, Tsukimura B, Stillman JH. Species as Stressors: Heterospecific Interactions and the Cellular Stress Response under Global Change. Integrative and Comparative Biology. 57: 90-102. PMID 28881935 DOI: 10.1093/icb/icx019 |
0.678 |
|
| 2017 |
Gunderson AR, Dillon ME, Stillman JH. Estimating the benefits of plasticity in ectotherm heat tolerance under natural thermal variability Functional Ecology. 31: 1529-1539. DOI: 10.1111/1365-2435.12874 |
0.678 |
|
| 2017 |
Armstrong EJ, Allen TR, Beltrand M, Dubousquet V, Stillman JH, Mills SC. High pCO2 and elevated temperature reduce survival and alter development in early life stages of the tropical sea hare Stylocheilus striatus Marine Biology. 164. DOI: 10.1007/S00227-017-3133-X |
0.618 |
|
| 2016 |
Armstrong EJ, Stillman JH. Construction and Characterization of Two Novel Transcriptome Assemblies in the Congeneric Porcelain Crabs Petrolisthes cinctipes and P. manimaculis. Integrative and Comparative Biology. PMID 27375271 DOI: 10.1093/Icb/Icw043 |
0.499 |
|
| 2016 |
Williams CM, Buckley LB, Sheldon KS, Vickers M, Pörtner HO, Dowd WW, Gunderson AR, Marshall KE, Stillman JH. Biological Impacts of Thermal Extremes: Mechanisms and Costs of Functional Responses Matter. Integrative and Comparative Biology. PMID 27252194 DOI: 10.1093/Icb/Icw013 |
0.796 |
|
| 2015 |
Bjelde BE, Miller NA, Stillman JH, Todgham AE. The Role of Oxygen in Determining Upper Thermal Limits in Lottia digitalis under Air Exposure and Submersion. Physiological and Biochemical Zoology : Pbz. 88: 483-93. PMID 26658246 DOI: 10.1086/682220 |
0.737 |
|
| 2015 |
Gunderson AR, Armstrong EJ, Stillman JH. Multiple Stressors in a Changing World: The Need for an Improved Perspective on Physiological Responses to the Dynamic Marine Environment. Annual Review of Marine Science. PMID 26359817 DOI: 10.1146/Annurev-Marine-122414-033953 |
0.765 |
|
| 2015 |
Stillman JH, Paganini AW. Biochemical adaptation to ocean acidification. The Journal of Experimental Biology. 218: 1946-1955. PMID 26085671 DOI: 10.1242/jeb.115584 |
0.736 |
|
| 2015 |
Gunderson AR, Stillman JH. Plasticity in thermal tolerance has limited potential to buffer ectotherms from global warming. Proceedings. Biological Sciences / the Royal Society. 282. PMID 25994676 DOI: 10.1098/rspb.2015.0401 |
0.8 |
|
| 2015 |
Stillman JH, Armstrong E. Genomics are transforming our understanding of responses to climate change Bioscience. 65: 237-246. DOI: 10.1093/Biosci/Biu219 |
0.518 |
|
| 2015 |
Bjelde BE, Miller NA, Stillman JH, Todgham AE. The role of oxygen in determining upper thermal limits in lottia digitalis under air exposure and submersion Physiological and Biochemical Zoology. 88: 483-493. DOI: 10.1086/682220 |
0.703 |
|
| 2014 |
Gunderson AR, Stillman JH. An affinity for biochemical adaptation to temperature. The Journal of Experimental Biology. 217: 4273-4. PMID 25520382 DOI: 10.1242/jeb.103192 |
0.773 |
|
| 2014 |
Paganini AW, Miller NA, Stillman JH. Temperature and acidification variability reduce physiological performance in the intertidal zone porcelain crab Petrolisthes cinctipes. The Journal of Experimental Biology. 217: 3974-80. PMID 25392458 DOI: 10.1242/Jeb.109801 |
0.75 |
|
| 2014 |
Miller NA, Chen X, Stillman JH. Metabolic physiology of the invasive clam, Potamocorbula amurensis: the interactive role of temperature, salinity, and food availability. Plos One. 9: e91064. PMID 24599347 DOI: 10.1371/Journal.Pone.0091064 |
0.533 |
|
| 2013 |
Todgham AE, Stillman JH. Physiological responses to shifts in multiple environmental stressors: relevance in a changing world. Integrative and Comparative Biology. 53: 539-44. PMID 23892371 DOI: 10.1093/Icb/Ict086 |
0.666 |
|
| 2013 |
Carter HA, Ceballos-Osuna L, Miller NA, Stillman JH. Impact of ocean acidification on metabolism and energetics during early life stages of the intertidal porcelain crab Petrolisthes cinctipes. The Journal of Experimental Biology. 216: 1412-22. PMID 23536589 DOI: 10.1242/Jeb.078162 |
0.687 |
|
| 2013 |
Ceballos-Osuna L, Carter HA, Miller NA, Stillman JH. Effects of ocean acidification on early life-history stages of the intertidal porcelain crab Petrolisthes cinctipes. The Journal of Experimental Biology. 216: 1405-11. PMID 23536588 DOI: 10.1242/Jeb.078154 |
0.685 |
|
| 2013 |
Miller NA, Stillman JH. Seasonal and spatial variation in the energetics of the invasive clam Corbula amurensis in the upper San Francisco Estuary Marine Ecology Progress Series. 476: 129-139. DOI: 10.3354/Meps10149 |
0.545 |
|
| 2013 |
Miller NA, Paganini AW, Stillman JH. Differential thermal tolerance and energetic trajectories during ontogeny in porcelain crabs, genus Petrolisthes Journal of Thermal Biology. 38: 79-85. DOI: 10.1016/J.Jtherbio.2012.11.005 |
0.6 |
|
| 2012 |
Ronges D, Walsh JP, Sinclair BJ, Stillman JH. Changes in extreme cold tolerance, membrane composition and cardiac transcriptome during the first day of thermal acclimation in the porcelain crab Petrolisthes cinctipes. The Journal of Experimental Biology. 215: 1824-36. PMID 22573761 DOI: 10.1242/Jeb.069658 |
0.364 |
|
| 2012 |
Miller NA, Stillman JH. Neural thermal performance in porcelain crabs, genus Petrolisthes. Physiological and Biochemical Zoology : Pbz. 85: 29-39. PMID 22237287 DOI: 10.1086/663633 |
0.566 |
|
| 2012 |
Chen X, Stillman JH. Multigenerational analysis of temperature and salinity variability affects on metabolic rate, generation time, and acute thermal and salinity tolerance in Daphnia pulex Journal of Thermal Biology. 37: 185-194. DOI: 10.1016/j.jtherbio.2011.12.010 |
0.301 |
|
| 2010 |
Rais A, Miller N, Stillman JH. No evidence for homeoviscous adaptation in intertidal snails: analysis of membrane fluidity during thermal acclimation, thermal acclimatization, and across thermal microhabitats. Marine Biology. 157: 2407-2414. PMID 24391251 DOI: 10.1007/S00227-010-1505-6 |
0.573 |
|
| 2009 |
Stillman JH, Tagmount A. Seasonal and latitudinal acclimatization of cardiac transcriptome responses to thermal stress in porcelain crabs, Petrolisthes cinctipes. Molecular Ecology. 18: 4206-26. PMID 19765222 DOI: 10.1111/j.1365-294X.2009.04354.x |
0.362 |
|
| 2006 |
Stillman JH, Teranishi KS, Tagmount A, Lindquist EA, Brokstein PB. Construction and characterization of EST libraries from the porcelain crab, Petrolisthes cinctipes. Integrative and Comparative Biology. 46: 919-30. PMID 21672796 DOI: 10.1093/icb/icl007 |
0.342 |
|
| 2006 |
Pörtner HO, Bennett AF, Bozinovic F, Clarke A, Lardies MA, Lucassen M, Pelster B, Schiemer F, Stillman JH. Trade-offs in thermal adaptation: the need for a molecular to ecological integration. Physiological and Biochemical Zoology : Pbz. 79: 295-313. PMID 16555189 DOI: 10.1086/499986 |
0.372 |
|
| 2002 |
Stillman JH. Causes and consequences of thermal tolerance limits in rocky intertidal porcelain crabs, genus petrolisthes. Integrative and Comparative Biology. 42: 790-6. PMID 21708777 DOI: 10.1093/icb/42.4.790 |
0.34 |
|
| 2001 |
Stillman JH, Somero GN. A comparative analysis of the evolutionary patterning and mechanistic bases of lactate dehydrogenase thermal stability in porcelain crabs, genus Petrolisthes. The Journal of Experimental Biology. 204: 767-76. PMID 11171359 |
0.573 |
|
| 2000 |
Stillman JH, Somero GN. A comparative analysis of the upper thermal tolerance limits of eastern Pacific porcelain crabs, genus Petrolisthes: influences of latitude, vertical zonation, acclimation, and phylogeny. Physiological and Biochemical Zoology : Pbz. 73: 200-8. PMID 10801398 DOI: 10.1086/316738 |
0.623 |
|
| 1996 |
Stillman JH, Somero GN. Adaptation to temperature stress and aerial exposure in congeneric species of intertidal porcelain crabs (genus Petrolisthes): Correlation of physiology, biochemistry and morphology with vertical distribution Journal of Experimental Biology. 199: 1845-1855. |
0.555 |
|
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