Peer Reviewed Publications
For up to date publications and citations, please visit my google scholar page
35) Carlson RR, Foo SA, Burns JHR, Asner GP (2022) Untapped policy avenues to protect coral reef ecosystems. PNAS 119.
34) Foo SA, Munari M, Gambi MC, Byrne M (2022) Acclimation to low pH does not affect the thermal tolerance of Arbacia lixula progeny. Biology Letters 18.
33) Asner GP, Vaughn NR, Martin RE, Foo SA, Heckler J, Neilson BJ, Gove J. (2022) Mapped coral mortality and refugia in an archipelago-scale marine heat wave. Proceedings of the National Academy of Sciences 119.
32) Foo SA, Teague C, Asner GP. (2022) Warming alters the relationship between benthic cover and herbivores on Hawaiian reefs. Frontiers in Marine Science 9.
31) Foo SA, Asner GP. (2021) Algal turf herbivory by water depth throughout the Main Hawaiian Islands. Coral Reefs.
30) Asner GP, Vaughn N, Grady B, Foo SA, Anand H, Carlson RR, Shafron E, Teague C, Martin RE. (2021) Upscaling reef fish surveys using high-resolution mapping and analysis. Frontiers in Marine Science.
29) Carlson RR, Evans L, Foo SA, Grady B, Li J, Seeley M, Xu Y, Asner GP. (2021) Synergistic benefits of conserving land-sea ecosystems. Global Ecology and Conservation.
28) Asner GP, Vaughn NR, Foo SA, Heckler J, Martin RE. (2021) Drivers of reef habitat complexity throughout the Main Hawaiian Islands. Frontiers in Marine Science.
27) Foo SA, Byrne M. (2021) Forecasting impacts of ocean acidification on marine communities: Utilising natural CO2 vents as natural laboratories. Global Change Biology.
26) Foo SA, Asner GP (2020) Impacts of remotely sensed environmental drivers on coral outplant survival. Restoration Ecology
25) Xu Y, Vaughn NR, Knapp DE, Martin RE, Balzotti C, Li J, Foo SA, Asner GP (2020) Coral bleaching detection in the Hawaiian Islands using spatio-temporal standardized bottom reflectance and Planet Dove satellites. Remote Sensing 12: 3219.
24) Foo SA, Walsh W, Lecky J, Marcoux S, Asner GP (2020) Impacts of pollution, fishing pressure, and reef rugosity on resource fish biomass in West Hawai‘i. Ecological Applications
23) Foo SA, Asner GP (2020) Sea surface temperature and coral reef restoration outcomes. Environmental Research Letters 15: 074045.
22) Foo SA, Koweek DA, Munari M, Gambi MC, Byrne M, Caldeira K (2020) Contrasting responses of sea urchin larvae to field and laboratory acidification. Science of the Total Environment 723: 138003.
21) Foo SA, Liddell L, Grossman A, Caldeira K (2020) Photo-movement in the sea anemone Aiptasia influenced by light quality and symbiotic association. Coral Reefs 39: 47-54.
20) Byrne M, Foo SA, Ross PM, Putnam HM (2020) Limitations of cross and multigenerational plasticity for marine invertebrates faced with global climate change. Global Change Biology 26: 80-102.
19) Carlson RR, Foo SA, Asner GP (2019) Land use impacts on coral reef health: a ridge-to-reef perspective. Frontiers in Marine Science 6: 562.
18) Foo SA , Asner GP (2019) Scaling up coral reef restoration using remote sensing technology. Frontiers in Marine Science 6: 79.
17) Deaker D, Foo SA, Byrne M (2019) Phenotypic plasticity in egg and jelly coat contribution to target size for sperm: A review for the Echinodermata. Marine and Freshwater Research 70: 995-1006.
16) Foo SA, Byrne M, Ricevuto E, Gambi MC (2018) The carbon dioxide vents of Ischia, Italy, a natural laboratory to assess impacts of ocean acidification on marine ecosystems: an overview of research and comparisons with other vent systems. Oceanography and Marine Biology - An Annual Review 56, 237-310.
15) Foo SA, Byrne M, Gambi MC (2018) Residing at low pH matters, resilience of the egg jelly coat of sea urchins living at a CO2 vent site. Marine Biology 165: 97.
14) Foo SA, Deaker D, Byrne M (2018) Cherchez la femme-impact of ocean acidification on the egg jelly coat and attractants for sperm. Journal of Experimental Biology 221: jeb.177188.
13) Foo SA, Byrne M (2017) Marine gametes in a changing ocean: Impacts of climate change stressors on fecundity and the egg. Marine Environmental Research 128: 12-24.
12) Sparks KM, Foo SA, Uthicke S, Byrne M, Lamare M (2017) Paternal identity influences response of Acanthaster planci embryos to ocean acidification and warming. Coral Reefs 36: 325-338.
11) Allen JD, Schrage KR, Foo SA, Watson SA, Byrne M (2017) The effects of salinity and pH on fertilisation, early development and hatching in the Crown-of-Thorns Seastar. Diversity 9: 13.
10) Karelitz S, Uthicke S, Foo SA, Barker M, Byrne M, Pecorino D, Lamare M (2017) Ocean acidification has little effect on developmental thermal windows of echinoderms. Global Change Biology 23: 657-672.
9) Foo SA, Dworjanyn SA, Poore AGB, Harianto J, Byrne M (2016) Adaptive capacity of the sea urchin Heliocidaris erythrogramma to ocean change stressors: transgenerational responses from gamete performance to the juvenile. Marine Ecology Progress Series 556: 161-172.
8) Foo SA, Sparks K, Uthicke S, Karelitz S, Barker M, Byrne M, Lamare M (2016) Contributions of genetic and environmental variance in early development of the Antarctic sea urchin Sterechinus neumayeri in response to increased ocean temperature and acidification. Marine Biology 163: 130.
7) Foo SA, Byrne M (2016) Acclimatization and adaptive capacity of marine species in a changing ocean. In: Barbara E. Curry, editor, Advances in Marine Biology, Vol. 74, Oxford: Academic Press, pp. 69-116.
6) Foo SA, Dworjanyn S, Khatkar M, Poore A, Byrne M (2014) Increased temperature, but not acidification, enhances fertilization success and development in a tropical urchin: potential for adaptation to a tropicalized eastern Australia. Evolutionary Applications 7: 1226-1237.
5) Byrne M, Foo SA, Soars N, Wolfe K, Nguyen HD, Hardy N, Dworjanyn S (2013) Ocean warming will mitigate the effects of acidification on calcifying sea urchin larvae (Heliocidaris tuberculata) from the Australian global warming hot spot. Journal of Experimental Marine Biology and Ecology 448: 250-257.
4) Uthicke S, Soars N, Foo SA, Byrne M (2013) Effects of elevated pCO2 and the effect of parent acclimation on development in the tropical Pacific sea urchin Echinometra mathaei. Marine Biology 160: 1913-1926.
3) Byrne M, Gonzalez-Bernat M, Doo S, Foo SA, Soars N, Lamare M (2013) Effects of ocean warming and ocean acidification on embryos and non-calcifying larvae of the invasive sea star Patiriella regularis. Marine Ecology Progress Series 473: 235-246.
2) Foo SA, Dworjanyn S, Poore A, Byrne M (2012) Adaptive capacity of the habitat modifying sea urchin Centrostephanus rodgersii to ocean warming and ocean acidification: Performance of early embryos. PLoS ONE 7: e42497.
1) Doo S, Dworjanyn S, Foo SA, Soars N, Byrne M (2012) Impacts of ocean acidification on development of the meroplanktonic larval stage of the sea urchin Centrostephanus rodgersii. ICES Journal of Marine Science 69: 460-464.
34) Foo SA, Munari M, Gambi MC, Byrne M (2022) Acclimation to low pH does not affect the thermal tolerance of Arbacia lixula progeny. Biology Letters 18.
33) Asner GP, Vaughn NR, Martin RE, Foo SA, Heckler J, Neilson BJ, Gove J. (2022) Mapped coral mortality and refugia in an archipelago-scale marine heat wave. Proceedings of the National Academy of Sciences 119.
32) Foo SA, Teague C, Asner GP. (2022) Warming alters the relationship between benthic cover and herbivores on Hawaiian reefs. Frontiers in Marine Science 9.
31) Foo SA, Asner GP. (2021) Algal turf herbivory by water depth throughout the Main Hawaiian Islands. Coral Reefs.
30) Asner GP, Vaughn N, Grady B, Foo SA, Anand H, Carlson RR, Shafron E, Teague C, Martin RE. (2021) Upscaling reef fish surveys using high-resolution mapping and analysis. Frontiers in Marine Science.
29) Carlson RR, Evans L, Foo SA, Grady B, Li J, Seeley M, Xu Y, Asner GP. (2021) Synergistic benefits of conserving land-sea ecosystems. Global Ecology and Conservation.
28) Asner GP, Vaughn NR, Foo SA, Heckler J, Martin RE. (2021) Drivers of reef habitat complexity throughout the Main Hawaiian Islands. Frontiers in Marine Science.
27) Foo SA, Byrne M. (2021) Forecasting impacts of ocean acidification on marine communities: Utilising natural CO2 vents as natural laboratories. Global Change Biology.
26) Foo SA, Asner GP (2020) Impacts of remotely sensed environmental drivers on coral outplant survival. Restoration Ecology
25) Xu Y, Vaughn NR, Knapp DE, Martin RE, Balzotti C, Li J, Foo SA, Asner GP (2020) Coral bleaching detection in the Hawaiian Islands using spatio-temporal standardized bottom reflectance and Planet Dove satellites. Remote Sensing 12: 3219.
24) Foo SA, Walsh W, Lecky J, Marcoux S, Asner GP (2020) Impacts of pollution, fishing pressure, and reef rugosity on resource fish biomass in West Hawai‘i. Ecological Applications
23) Foo SA, Asner GP (2020) Sea surface temperature and coral reef restoration outcomes. Environmental Research Letters 15: 074045.
22) Foo SA, Koweek DA, Munari M, Gambi MC, Byrne M, Caldeira K (2020) Contrasting responses of sea urchin larvae to field and laboratory acidification. Science of the Total Environment 723: 138003.
21) Foo SA, Liddell L, Grossman A, Caldeira K (2020) Photo-movement in the sea anemone Aiptasia influenced by light quality and symbiotic association. Coral Reefs 39: 47-54.
20) Byrne M, Foo SA, Ross PM, Putnam HM (2020) Limitations of cross and multigenerational plasticity for marine invertebrates faced with global climate change. Global Change Biology 26: 80-102.
19) Carlson RR, Foo SA, Asner GP (2019) Land use impacts on coral reef health: a ridge-to-reef perspective. Frontiers in Marine Science 6: 562.
18) Foo SA , Asner GP (2019) Scaling up coral reef restoration using remote sensing technology. Frontiers in Marine Science 6: 79.
17) Deaker D, Foo SA, Byrne M (2019) Phenotypic plasticity in egg and jelly coat contribution to target size for sperm: A review for the Echinodermata. Marine and Freshwater Research 70: 995-1006.
16) Foo SA, Byrne M, Ricevuto E, Gambi MC (2018) The carbon dioxide vents of Ischia, Italy, a natural laboratory to assess impacts of ocean acidification on marine ecosystems: an overview of research and comparisons with other vent systems. Oceanography and Marine Biology - An Annual Review 56, 237-310.
15) Foo SA, Byrne M, Gambi MC (2018) Residing at low pH matters, resilience of the egg jelly coat of sea urchins living at a CO2 vent site. Marine Biology 165: 97.
14) Foo SA, Deaker D, Byrne M (2018) Cherchez la femme-impact of ocean acidification on the egg jelly coat and attractants for sperm. Journal of Experimental Biology 221: jeb.177188.
13) Foo SA, Byrne M (2017) Marine gametes in a changing ocean: Impacts of climate change stressors on fecundity and the egg. Marine Environmental Research 128: 12-24.
12) Sparks KM, Foo SA, Uthicke S, Byrne M, Lamare M (2017) Paternal identity influences response of Acanthaster planci embryos to ocean acidification and warming. Coral Reefs 36: 325-338.
11) Allen JD, Schrage KR, Foo SA, Watson SA, Byrne M (2017) The effects of salinity and pH on fertilisation, early development and hatching in the Crown-of-Thorns Seastar. Diversity 9: 13.
10) Karelitz S, Uthicke S, Foo SA, Barker M, Byrne M, Pecorino D, Lamare M (2017) Ocean acidification has little effect on developmental thermal windows of echinoderms. Global Change Biology 23: 657-672.
9) Foo SA, Dworjanyn SA, Poore AGB, Harianto J, Byrne M (2016) Adaptive capacity of the sea urchin Heliocidaris erythrogramma to ocean change stressors: transgenerational responses from gamete performance to the juvenile. Marine Ecology Progress Series 556: 161-172.
8) Foo SA, Sparks K, Uthicke S, Karelitz S, Barker M, Byrne M, Lamare M (2016) Contributions of genetic and environmental variance in early development of the Antarctic sea urchin Sterechinus neumayeri in response to increased ocean temperature and acidification. Marine Biology 163: 130.
7) Foo SA, Byrne M (2016) Acclimatization and adaptive capacity of marine species in a changing ocean. In: Barbara E. Curry, editor, Advances in Marine Biology, Vol. 74, Oxford: Academic Press, pp. 69-116.
6) Foo SA, Dworjanyn S, Khatkar M, Poore A, Byrne M (2014) Increased temperature, but not acidification, enhances fertilization success and development in a tropical urchin: potential for adaptation to a tropicalized eastern Australia. Evolutionary Applications 7: 1226-1237.
5) Byrne M, Foo SA, Soars N, Wolfe K, Nguyen HD, Hardy N, Dworjanyn S (2013) Ocean warming will mitigate the effects of acidification on calcifying sea urchin larvae (Heliocidaris tuberculata) from the Australian global warming hot spot. Journal of Experimental Marine Biology and Ecology 448: 250-257.
4) Uthicke S, Soars N, Foo SA, Byrne M (2013) Effects of elevated pCO2 and the effect of parent acclimation on development in the tropical Pacific sea urchin Echinometra mathaei. Marine Biology 160: 1913-1926.
3) Byrne M, Gonzalez-Bernat M, Doo S, Foo SA, Soars N, Lamare M (2013) Effects of ocean warming and ocean acidification on embryos and non-calcifying larvae of the invasive sea star Patiriella regularis. Marine Ecology Progress Series 473: 235-246.
2) Foo SA, Dworjanyn S, Poore A, Byrne M (2012) Adaptive capacity of the habitat modifying sea urchin Centrostephanus rodgersii to ocean warming and ocean acidification: Performance of early embryos. PLoS ONE 7: e42497.
1) Doo S, Dworjanyn S, Foo SA, Soars N, Byrne M (2012) Impacts of ocean acidification on development of the meroplanktonic larval stage of the sea urchin Centrostephanus rodgersii. ICES Journal of Marine Science 69: 460-464.
