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2022 Journal Article An introduction to decision science for conservationHemming, Victoria, Camaclang, Abbey E., Adams, Megan S., Burgman, Mark, Carbeck, Katherine, Carwardine, Josie, Chadès, Iadine, Chalifour, Lia, Converse, Sarah J., Davidson, Lindsay N. K., Garrard, Georgia E., Finn, Riley, Fleri, Jesse R., Huard, Jacqueline, Mayfield, Helen J., Madden, Eve McDonald, Naujokaitis‐Lewis, Ilona, Possingham, Hugh P., Rumpff, Libby, Runge, Michael C., Stewart, Daniel, Tulloch, Vivitskaia J. D., Walshe, Terry and Martin, Tara G. (2022). An introduction to decision science for conservation. Conservation Biology, 36 (1) e13868, e13868. doi: 10.1111/cobi.13868 |
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2022 Journal Article Creating past habitat maps to quantify local extirpation of Australian threatened birdsWard, Michelle, Watson, James E. M., Possingham, Hugh P., Garnett, Stephen T., Maron, Martine, Rhodes, Jonathan R., MacColl, Chris, Seaton, Richard, Jackett, Nigel, Reside, April E., Webster, Patrick and Simmonds, Jeremy S. (2022). Creating past habitat maps to quantify local extirpation of Australian threatened birds. Environmental Research Letters, 17 (2) 024032, 024032. doi: 10.1088/1748-9326/ac4f8b |
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2022 Journal Article Aligning ecological compensation policies with the Post‐2020 Global Biodiversity Framework to achieve real net gain in biodiversitySimmonds, Jeremy S., Hase, Amrei, Quétier, Fabien, Brownlie, Susie, Maron, Martine, Possingham, Hugh P., Souquet, Mathieu, zu Ermgassen, Sophus O. S. E., ten Kate, Kerry, Costa, Hugo M. and Sonter, Laura J. (2022). Aligning ecological compensation policies with the Post‐2020 Global Biodiversity Framework to achieve real net gain in biodiversity. Conservation Science and Practice, 4 (3) e12634. doi: 10.1111/csp2.12634 |
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2022 Journal Article Predicting the optimal amount of time to spend learning before designating protected habitat for threatened speciesCamaclang, Abbey E., Chadès, Iadine, Martin, Tara G. and Possingham, Hugh P. (2022). Predicting the optimal amount of time to spend learning before designating protected habitat for threatened species. Methods in Ecology and Evolution, 13 (3), 722-733. doi: 10.1111/2041-210x.13770 |
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2022 Journal Article Trade-offs between efficiency, equality and equity in restoration for flood protectionVillarreal-Rosas, Jaramar, Vogl, Adrian L, Sonter, Laura J, Possingham, Hugh P and Rhodes, Jonathan R (2022). Trade-offs between efficiency, equality and equity in restoration for flood protection. Environmental Research Letters, 17 (1) 014001, 014001. doi: 10.1088/1748-9326/ac3797 |
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2021 Journal Article Include biodiversity representation indicators in area-based conservation targetsJetz, Walter, McGowan, Jennifer, Rinnan, D. Scott, Possingham, Hugh P., Visconti, Piero, O’Donnell, Brian and Londoño-Murcia, Maria Cecilia (2021). Include biodiversity representation indicators in area-based conservation targets. Nature Ecology and Evolution, 6 (2), 123-126. doi: 10.1038/s41559-021-01620-y |
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2021 Journal Article Author Correction: Anthropogenic modification of forests means only 40% of remaining forests have high ecosystem integrity (Nature Communications, (2020), 11, 1, (5978), 10.1038/s41467-020-19493-3)Grantham, H. S., Duncan, A., Evans, T. D., Jones, K. R., Beyer, H. L., Schuster, R., Walston, J., Ray, J. C., Robinson, J. G., Callow, M., Clements, T., Costa, H. M., DeGemmis, A., Elsen, P. R., Ervin, J., Franco, P., Goldman, E., Goetz, S., Hansen, A., Hofsvang, E., Jantz, P., Jupiter, S., Kang, A., Langhammer, P., Laurance, W. F., Lieberman, S., Linkie, M., Malhi, Y., Maxwell, S. ... Watson, J. E.M. (2021). Author Correction: Anthropogenic modification of forests means only 40% of remaining forests have high ecosystem integrity (Nature Communications, (2020), 11, 1, (5978), 10.1038/s41467-020-19493-3). Nature Communications, 12 (1) 592, 592. doi: 10.1038/s41467-021-20999-7 |
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2021 Journal Article Prioritizing actions: spatial action maps for conservationTallis, Heather, Fargione, Joe, Game, Edward, McDonald, Rob, Baumgarten, Leandro, Bhagabati, Nirmal, Cortez, Rane, Griscom, Bronson, Higgins, Jonathan, Kennedy, Christina M., Kiesecker, Joe, Kroeger, Timm, Leberer, Trina, McGowan, Jennifer, Mandle, Lisa, Masuda, Yuta J., Morrison, Scott A., Palmer, Sally, Shirer, Rebecca, Shyamsundar, Priya, Wolff, Nicholas H. and Possingham, Hugh P. (2021). Prioritizing actions: spatial action maps for conservation. Annals of the New York Academy of Sciences, 1505 (1), 118-141. doi: 10.1111/nyas.14651 |
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2021 Other Outputs Prioritizing Management for Cumulative ImpactsSingh, Gerald G., Rhodes, Jonathan, McDonald-Madden, Eve, Possingham, Hugh P., Hammill, Edd, Murray, Cathryn Clarke, Mach, Megan, Martone, Rebecca, Halpern, Benjamin, Satterfield, Terre and Chan, Kai M. A. (2021). Prioritizing Management for Cumulative Impacts. doi: 10.1101/2021.10.07.463502 |
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2021 Journal Article A survey of traditional Chinese medicine consumers to investigate the impact of China's legalization of rhino horn trade on stigmatization and likelihood of useCheung, Hubert, Mazerolle, Lorraine, Possingham, Hugh P. and Biggs, Duan (2021). A survey of traditional Chinese medicine consumers to investigate the impact of China's legalization of rhino horn trade on stigmatization and likelihood of use. Conservation Science and Practice, 3 (11) e536. doi: 10.1111/csp2.536 |
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2021 Journal Article Predicted protected area downsizing impedes conservation progress across terrestrial ecoregions in the tropics and subtropicsKuempel, Caitlin D., Chauvenet, Alienor L. M., Symes, William S. and Possingham, Hugh P. (2021). Predicted protected area downsizing impedes conservation progress across terrestrial ecoregions in the tropics and subtropics. Conservation Science and Practice, 3 (11) e529, 1-12. doi: 10.1111/csp2.529 |
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2021 Journal Article Multi-objective zoning for aquaculture and biodiversityVenier, Chiara, Menegon, Stefano, Possingham, Hugh P., Gissi, Elena, Zanella, Andrea, Depellegrin, Daniel, Sarretta, Alessandro, Barbanti, Andrea and McGowan, Jennifer (2021). Multi-objective zoning for aquaculture and biodiversity. Science of the Total Environment, 785 146997, 146997. doi: 10.1016/j.scitotenv.2021.146997 |
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2021 Journal Article Decision-making with ecological process for coastal and marine planning: current literature and future directionsChamberlain, Debbie A., Possingham, Hugh P. and Phinn, Stuart R. (2021). Decision-making with ecological process for coastal and marine planning: current literature and future directions. Aquatic Ecology, 56 (1), 1-19. doi: 10.1007/s10452-021-09896-9 |
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2021 Journal Article Mangrove forest cover and phenology with Landsat dense time series in Central Queensland, AustraliaChamberlain, Debbie A., Phinn, Stuart R. and Possingham, Hugh P. (2021). Mangrove forest cover and phenology with Landsat dense time series in Central Queensland, Australia. Remote Sensing, 13 (15) 3032, 1-26. doi: 10.3390/rs13153032 |
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2021 Journal Article Indicators keep progress honest: a call to track both the quantity and quality of protected areasAdams, Vanessa M., Visconti, Piero, Graham, Victoria and Possingham, Hugh P. (2021). Indicators keep progress honest: a call to track both the quantity and quality of protected areas. One Earth, 4 (7), 901-906. doi: 10.1016/j.oneear.2021.06.014 |
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2021 Journal Article Incorporating climate velocity into the design of climate‐smart networks of marine protected areasArafeh‐Dalmau, Nur, Brito‐Morales, Isaac, Schoeman, David S., Possingham, Hugh P., Klein, Carissa J. and Richardson, Anthony J. (2021). Incorporating climate velocity into the design of climate‐smart networks of marine protected areas. Methods in Ecology and Evolution, 12 (10) 2041-210X.13675, 1-15. doi: 10.1111/2041-210x.13675 |
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2021 Journal Article Software for prioritizing conservation actions based on probabilistic informationWatts, Matthew, Klein, Carissa J., Tulloch, Vivitskaia J. D., Carvalho, Silvia B. and Possingham, Hugh P. (2021). Software for prioritizing conservation actions based on probabilistic information. Conservation Biology, 35 (4), 1299-1308. doi: 10.1111/cobi.13681 |
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2021 Journal Article Southward decrease in the protection of persistent giant kelp forests in the northeast PacificArafeh-Dalmau, Nur, Cavanaugh, Kyle C., Possingham, Hugh P., Munguia-Vega, Adrian, Montaño-Moctezuma, Gabriela, Bell, Tom W., Cavanaugh, Kate and Micheli, Fiorenza (2021). Southward decrease in the protection of persistent giant kelp forests in the northeast Pacific. Communications Earth and Environment, 2 (1) 119. doi: 10.1038/s43247-021-00177-9 |
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2021 Journal Article A metric for spatially explicit contributions to science-based species targetsMair, Louise, Bennun, Leon A., Brooks, Thomas M., Butchart, Stuart H. M., Bolam, Friederike C., Burgess, Neil D., Ekstrom, Jonathan M. M., Milner-Gulland, E. J., Hoffmann, Michael, Ma, Keping, Macfarlane, Nicholas B. W., Raimondo, Domitilla C., Rodrigues, Ana S. L., Shen, Xiaoli, Strassburg, Bernardo B. N., Beatty, Craig R., Gómez-Creutzberg, Carla, Iribarrem, Alvaro, Irmadhiany, Meizani, Lacerda, Eduardo, Mattos, Bianca C., Parakkasi, Karmila, Tognelli, Marcelo F., Bennett, Elizabeth L., Bryan, Catherine, Carbone, Giulia, Chaudhary, Abhishek, Eiselin, Maxime, da Fonseca, Gustavo A. B. ... McGowan, Philip J. K. (2021). A metric for spatially explicit contributions to science-based species targets. Nature Ecology and Evolution, 5 (6), 836-844. doi: 10.1038/s41559-021-01432-0 |
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2021 Other Outputs Climate-smart, 3-D protected areas in the high seasMorales, Isaac Brito, Schoeman, David, Klein, Carissa, Dunn, Daniel, Everett, Jason, Molinos, Jorge García, Burrows, Michael T., Dominguez, Rosa Mar, Possingham, Hugh and Richardson, Anthony (2021). Climate-smart, 3-D protected areas in the high seas. doi: 10.21203/rs.3.rs-421078/v1 |
