2024

Unsworth RKF, Jones BLH, Coals L, Furness E, Inman I, Rees SC, Evans AJ (2024) Overcoming ecological feedbacks in seagrass restoration. Restoration Ecology e14101

2023

Aiken CM, Navarrete SA, Jackson EL (2023) Reactive persistence, spatial management, and conservation of metapopulations: An application to seagrass restoration. Ecological Applications 33: e2774

Dalby O, Pucino N, Tan YM, Jackson EL, Macreadie PI, Coleman RA, Young MA, Ierodiaconou D, Sherman CDH (2023) Identifying spatio-temporal trends in seagrass meadows to inform future restoration. Restoration Ecology 31: e13787

Dalby O, Coleman RA, Tan YM, Jennings G, Cook PLM, Jackson EL, Macreadie PI, Sherman CDH (2023) Understanding the seagrass-sediment-light feedback to guide restoration planning: a case study using Zostera muelleri. Restoration Ecology 31: e14044.

Ferretto G, Glasby TM, Poore AGB, Callaghan CT, Sinclair EA, Statton J, Kendrick GA, Vergés A (2023) Optimizing restoration of the threatened seagrass Posidonia australis: plant traits influence restoration success. Restoration Ecology 31: e13893

Grafnings MLE, Heusinkveld JHT, Hoeijmakers DJJ, Smeele Q, Wiersema H, Zwarts M, van der Heide T, Glovers LL (2023) Optimizing seed injection as a seagrass restoration method. Restoration Ecology 31: e13851

Hardison SB, McGlathery KJ, Castorani MCN (2023) Effects of seagrass restoration on coastal fish abundance and diversity. Conservaion Biology 37: e14147

Tan YM, Coleman RA, Biro P, Dalby O, Jackson EL, Govers LL, Heusinkveld JHT, Macreadie PI, Flindt MR, Dewhurst J, Sherman CDH (2023) Developing seed‐ and shoot‐based restoration approaches for the seagrass, Zostera muelleri. Restoration Ecology e13902

Unsworth RKF, Bertelli CM, Coals L, Cullen-Unsworth LC, den Haan S, Jones BLH, Rees SR, Thomsen E, Wookey A, Walter B (2023) Bottlenecks to seed-based seagrass restoration reveal opportunities for improvement. Global Ecology and Conservation 48: e02736.

Waycott M, Lewis R (2023) A restoration strategy for the Ruppia community of the southern Coorong. Goyder Institute for Water Research Technical Report Series No. 22/19

2022

Carnell P, McLeod R, Young M, Gillies C, Obst C, Macreadie PI, Ierodiaconou D, Reeves S, Eigenraam M, Janes H, Kelvin J, Nicholson E (2022) Prioritising the restoration of marine and coastal ecosystems using ecosystem accounting.

Edgeloe JM, Severn-Ellis AA, Bayer PE, Mehravi S, Breed MF, Krauss SL, Batley J, Kendrick GA, Sinclair EA (2022) Extensive polyploid clonality was a successful strategy for seagrass to expand into a newly submerged environment. Proceedings of the Royal Society B 289 (1976): 20220538

Kendrick GA, Orth RJ, Sinclair EA, Statton J, (2022) Effect of climate change on regeneration of seagrasses from seed. In: Baskan CC and Baskan JM (eds) Plant regeneration from seeds: a global warming perspective. Chapter 20, pp 275-283

Martin BC, Middleton JA, Skrzypek G, Kendrick GA, Cosgrove J, Fraser MW (2022) Composition of seagrass root associated bacterial communities are linked to nutrients and heavy metal concentrations in an anthropogenically influenced estuary. Frontiers in Marine Science 8: 768864

Matheson FE, Mackay G, Middleton C, Griffiths R, Eyre R, Smith J, Ovendon R (2022) Restoring the seagrass Zostera muelleri with transplants: small cores are as effective as larger plots. New Zealand Journal of Marine and Freshwater Research

McAfee D, Reis-Santos P, Jones AR, Gillanders BM, Mellin C, Nagelkerken I, Nursey-Bray MJ, Baring R, Miot da Silva G, Tanner JE, Connell SD (2022) Multi-habitat seascape restoration: optimising marine restoration for coastal repair and social benefit. Frontiers in Marine Science 9: 910467

McMahon K, Kilminster K, Canto R, Roelfsema C, Lyons M, Kendrick GA, Waycott M, Uddy J (2022) The risk of multiple anthropogenic and climate change threats must be considered for continental scale conservation and management of seagrass habitat. Frontiers in Marine Science 9: 837259

Unsworth RKF, Cullen-Unsworth LC, Hope JN, Jones BLH, Lilley RJ, Nuuttila HK, Williams B, Esteban NE (2022) Effectiveness of moorings constructed from rope in reducing impacts to seagrass. Oceans 3: 431-438 

2021

Cziesielski MJ, Duarte CM, Aalismail N, Al-Hafedh Y, Anton A, Baalkhuyur F, Baker AC, Balke T, Baums IB, Berumen M, Chalastani VI, Cornwell B, Daffonchio D, Diele K, Farooq E, Gattuso J-P, He S, Lovelock CE, McLeod E, Macreadie PI, Marba N, Martin C, Muniz-Barreto M, Kadinijappali KP, Prihartato P, Rabaoui L, Saderne V, Schmidt-Roach S, Suggett DJ, Sweet M, Statton J, Teicher S, Trevathan-Tackett SM, Joydas TV, Yahya R, Aranda M (2021) Investing in blue natural capital to secure a future for the Red Sea ecosystems. Frontiers in Marine Science 7: 1183

Ferretto G, Glasby TM, Poore AGB, Callaghan CT, Housefield GP, Langley M, Sinclair EA, Statton J, Kendrick GA, and Vergés A (2021) Naturally-detached fragments of the endangered seagrass Posidonia australis collected by citizen scientists can be used to successfully restore fragmented meadows. Biological Conservation 262: 109308

Jackson EL, Smith TM, York PH, Nielsen J, Irving AD, and Sherman CDH (2021) An assessment of the seascape genetic structure and hydrodynamic connectivity for subtropical seagrass restoration. Restoration Ecology 21: e13269

Sinclair EA, Sherman CDH, Statton J, Copeland C, Matthews A, Waycott M, van Dijk K-J, Vergés A, Kajlich L, McLeod I, and Kendrick GA (2021) Advances in approaches to seagrass restoration in Australia. Ecological Management and Restoration 22: 10-21

Tanner JE, McSkimming C, Russell BD, Connell SD (2021) Rapid restoration of belowground structure and fauna of a seagrass habitat. Restoration Ecology 29: e13289

2020

Stewart-Sinclair PJ, Purandare J, Bayraktarov E, Waltham N, Reeves SE, Statton J, Sinclair EA, Brown BM, Shribman ZI, and Lovelock CE (2020) Blue Restoration — building confidence and overcoming barriers. Frontiers in Marine Science 7: 748

Tan YM, Dalby O, Kendrick GA, Statton J, Sinclair EA, Fraser MW, Macreadie PI, Gillies C, Waycott M, van Dijk K-J, Vergés A, Ross JD, Campbell ML, Matheson FE, Jackson EL, Irving AD, Govers LL, Connolly RM, McLeod IM, Rasheed MA, Kirkman H, Flindt MR, Lange T, Miller AD, and Sherman CDH (2020) Seagrass restoration is possible: Insights and lessons from Australia and New Zealand. Frontiers in Marine Science 7: 617

Thorhaug A, Belaire C, Verduin JJ, Schwarz A, Kiswara W, Prathep A, Gallagher JB, Huang XP, Berlyn G, Yap T-K, and Dorward S (2020) Longevity and sustainability of tropical and subtropical restored seagrass beds among Atlantic, Pacific, and Indian Oceans. Marine Pollution Bulletin 160: 111544

Vanderklift MA, Doropoulos C, Gorman D, Leal I, Minne AJP, Statton J, Steven ADL, and Wernberg T (2020) Using propagules to restore coastal marine ecosystems. Frontiers in Marine Science 7: 724

2019

Bell SY, Fraser MW, Statton J, and Kendrick GA (2019) Salinity stress drives herbivory rates and selective grazing in subtidal seagrass communities. PLoS ONE 14(3): e0214308

Cambridge ML, Zavala-Perez A, Cawthray GR, Statton J, Mondon J, and Kendrick GA (2019) Effects of desalination brine and seawater with the same elevated salinity on growth, physiology and seedling development of the seagrass Posidonia australis. Marine Pollution Bulletin 140: 462-471

Ferretto G, Glasby TM, Housefield GP, Poore AGB, Statton J, Sinclair EA, Kendrick GA, Vergés A (2019) Threatened plant translocation case study: Posidonia australis (Strapweed), Posidoniaceae. Australasian Plant Conservation 28: 24-26

Serrano O, Lovelock CE, Atwood TB, Macreadie PI, Canto R, Phinn S, …… Duarte CM (2019) Australian vegetated coastal ecosystems as global hotspots for climate change mitigation. Nature Communications 10(1): 4313

Wendländer NS, Lange T, Connolly RM, Kristensen E, Pearson RM, Valdemarsen T, and Flindt MR (2019) Assessing methods for restoring seagrass (Zostera muelleri) in Australia’s subtropical waters. Marine and Freshwater Research 71(8): 996-1005

ABC News (2019) Seagrass nursery in central Queensland could offset carbon emissions: https://www.abc.net.au/news/2019-10-24/seagrass-propagation-project-and-blue-economy/11631944

ABC New (2019) Seagrass Propagation Project and the Blue Economy: https://www.abc.net.au/news/2019-10-24/seagrass-propagation-project-and-blue-economy/11631944

2018

Evans SM, Griffin KJ, Blick RAJ, Poore AGB, and Vergés A (2018) Seagrass on the brink: Decline of threatened seagrass Posidonia australis continues following protection. PLoS ONE 13 (4): e0190370

Evans SM, Sinclair EA, Poore AGB, Bain KF, and Vergés A (2018) Assessing the effect of genetic diversity on the early establishment of the threatened seagrass Posidonia australis using a reciprocal-transplant experiment. Restoration Ecology 26: 570-580

Ewers Lewis CJ, Carnell PE, Sanderman J, Baldock JA, and Macreadie PI (2018) Variability and vulnerability of coastal ‘blue carbon’ stocks: A case study from southeast Australia. Ecosystems 21: 263–279

Grech A, Hanert E, McKenzie L, Rasheed M, Thomas C, Tol S, Wang M, Waycott M, Wolter J, and Coles R (2018) Predicting the cumulative effect of multiple disturbances on seagrass connectivity. Global Change Biology 24(7): 3093-3104

Johnson AJ, Statton J, Orth RJ, Kendrick GA (2018) A sediment bioturbator bottleneck to seedling recruitment for the seagrass Posidonia australis. Marine Ecology Progress Series 595: 89-103

McLeod IM, Boström-Einarsson L, Johnson CR, Kendrick GA, Layton C, Rogers AA, and Statton J (2018) The role of restoration in conserving matters of national environmental significance. Report to the National Environmental Science Programme, Marine Biodiversity Hub. 

McLeod IM, Purandare J, Gillies C, Smith AJ, and Burrows D (2018) Symposium report: Inaugural Australian Coastal Restoration Symposium. Ecological Management and Restoration 19: E1-E5

O'Brien KR, Waycott M, Maxwell P, Kendrick GA, Udy JW, Ferguson AJP, Kilminster K, Scanes P, McKenzie LJ, McMahon K, Adams MP, Samper-Villarreal J, Collier C, Lyons M, Mumby PJ, Radke L, Christianen MJA, and Dennison WC (2018) Seagrass ecosystem trajectory depends on the relative timescales of resistance, recovery and disturbance. Marine Pollution Bulletin 134: 166-176

Statton J, Dixon KW, Irving AD, Jackson EL, Kendrick GA, Orth RJ and Sinclair EA (2018) Decline and restoration ecology of Australian seagrasses. In: Seagrasses of Australia: Structure, Ecology and Conservation (eds A. W. D. Larkum, R. P. Ralph and G. A. Kendrick) pp. 665-704. Springer Publishing.

Trevathan-Tackett SM, Wessel C, Cebrian J, Ralph PJ,, Masque P, and Macreadie PI (2018) Effects of small-scale, shading-induced seagrass loss on blue carbon storage: Implications for management of degraded seagrass ecosystems. Journal of Applied Ecology 55: 1351-1359

Wu P, McMahon K, Rasheed MA, Kendrick GA, York PH, Chartrand K, Caley MJ, and Mengersen K (2018) Managing seagrass resilience under cumulative dredging affecting light: Predicting risk using dynamic Bayesian networks. Journal of Applied Ecology 55: 1339-1350

2017

Cumming EE, Jarvis JC, Sherman CDH, York PH, and Smith TM (2017) Seed germination in a southern Australian temperate seagrass. PeerJ 5: e3114

Kendrick GA, Orth RJ, Statton J, Hovey R, Ruiz-Montoya L, Lowe R, Krauss SL, and Sinclair EA (2017) Demographic and genetic connectivity: the role and consequences of reproduction, dispersal and recruitment in seagrasses. Biological Reviews 92(2): 921-938

Liu S, Jiang Z, Wu Y, Zhang J, Arbi I, Ye F, Huang X, and Macreadie PI (2017) Effects of nutrient load on microbial activities within a seagrass-dominated ecosystem: implications of changes in seagrass blue carbon. Marine Pollution Bulletin 117: 214–221

Lovelock CE, Atwood T, Baldock J, Duarte CM, Hickey S, Lavery PS, Masque P, Macreadie PI, Ricart AM, Serrano O, and Steven A (2017) Assessing the risk of CO2 emissions from blue carbon ecosystems. Frontiers in Ecology and the Environment 15: 257–265

Macreadie PI, Nielsen DA, Kelleway JJ, Atwood T, Seymour J, Petrou K, Connolly RM, Thomson ACG, Trevathan-Tackett S, and Ralph P (2017) Can we manage coastal ecosystems to sequester more blue carbon? Frontiers in Ecology and the Environment 15: 206-213

Macreadie PI, Trevathan-Tackett SM, Baldock JA, and Kelleway JJ (2017) Converting beach-cast wrack into biochar: a climate-friendly solution to a coastal problem. Science of the Total Environment 574: 90-94

Matheson FE, Reed J, Dos Santos VM, Mackay G, and Cummings VJ (2017) Seagrass rehabilitation: successful transplants and evaluation of methods at different spatial scales, New Zealand Journal of Marine and Freshwater Research 51: 96-109

Maxwell PS, Eklöf JS, van Katwijk MM, O'Brien KR, de la Torre‐Castro M, Boström C, Bouma TJ, Krause‐Jensen D, Unsworth RK, van Tussenbroek BI and van der Heide . (2017) The fundamental role of ecological feedback mechanisms for the adaptive management of seagrass ecosystems – a review. Biological Reviews 92: 1521-1538

Miller BP, Sinclair EA, Menz MHM, Elliott CP, Bunn E, Commander LE, Dalziell E, David E, Erickson TE, Golos PJ, Krauss SL, Lewandrowski W, Mayence CE, Merino-Martin L, Merritt DJ, Nevill P, Davis B, Phillips RD, Ritchie AL, Ruoss S, and Stevens J (2017) A framework for the practical science necessary to restore sustainable, resilient and biodiverse ecosystems. Restoration Ecology 25: 605-617

Statton J, Sellers R, Dixon KW, Kilminster K, Merritt DJ and Kendrick GA (2017) Seed dormancy and germination of Halophila ovalis mediated by simulated seasonal temperature changes. Estuarine, Coastal and Shelf Science 198: 156-162

Statton J, Ruiz-Montoya L, Orth RJ, Dixon KW, and Kendrick GA (2017) Identifying critical recruitment bottlenecks limiting seedling establishment in a degraded seagrass ecosystem. Scientific Reports 7: 14786

Trevathan-Tackett CM, Macreadie PI, Sanderman J, Baldock J, Howes J, and Ralph P (2017) A global assessment of the chemical recalcitrance of seagrass tissues: Implications for long-term carbon sequestration. Frontiers in Plant Science 8: 925

Trevathan-Tackett S, Seymour J, Nielsen D, Macreadie PI, Thomas J, Sanderman J, Baldock J, Howes J, Steven A, and Ralph P (2017) Sediment anoxia limits microbial-driven seagrass carbon remineralization under warming conditions. FEMS Microbiology Ecology 93: fix033

York PH, Smith TM, Coles RG, McKenna S, Connolly RM, Irving AD, Jackson EL, Mcmahon K, Runcie J, Sherman CDH, Sullivan B, Trevathan-Tackett S, Brodersen K, Carter AB, Ewers C, Lavery P, Roelfsema C, Samper-Villarreal J, Sinclair EA, Strydom S, Tanner J, Van Dijk K-J, Warry F, Waycott M, and Whitehead S (2017) Identifying knowledge gaps in seagrass research and management: an Australian perspective. Marine Environmental Research 127: 163-172

2016

Adams MP, Hovey RK, Hipsey MR, Bruce LC, Ghisalberti M, Lowe RJ, Gruber RK, Ruiz-Montoya L, Maxwell PS, Callaghan DP, Kendrick GA, and O'Brien KR (2016) Feedback between sediment and light for seagrass: Where is it important? Limnology and Oceanography 61: 1937-1955

Campbell ML (2016) Burial duration and frequency influences resilience of differing propagule types in a subtidal seagrass, Posidonia australis. PLoS ONE 11(8): e0161309

Cullen-Unsworth LC, and Unsworth RKF (2016) Strategies to enhance the resilience of the world's seagrass meadows. Journal of Applied Ecology 53: 967-972

Evans SM, Sinclair EA, Poore AGB, Bain KF, and Verges A (2016) Genotypic richness predicts phenotypic variation in an endangered clonal plant. PeerJ 4: e1633

McSkimming C, Connell SD, Russell BW, and Tanner JE (2016) Habitat restoration: early signs and extent of faunal recovery relative to seagrass recovery. Estuarine, Coastal and Shelf Science 171: 51-57

Pernice M, Sinutok S, Sablok G, Commault AS, Schliep M, Macreadie PI, Rasheed MA, and Ralph PJ (2016) Molecular physiology reveals ammonium uptake and related gene expression in the seagrass Zostera muelleri. Marine Environmental Research 122: 126-134

Serrano O, Lavery PS, Duarte CM, Kendrick GA, Calafat A, York P, Steven A, and Macreadie PI (2016) Can mud (silt and clay) concentration be used to predict soil organic carbon content within seagrass ecosystems? Biogeosciences 13: 4915-4926

Sherman CDH, York PH, Smith TM, and Macreadie PI (2016) Fine‑scale patterns of genetic variation in a widespread clonal seagrass species. Marine Biology 163: 82

Sinclair EA, Statton J, Hovey R, Anthony J, Dixon KW, and Kendrick GA (2016) Reproduction at the extremes: pseudovivipary and genetic mosaicism in Posidonia australis (Posidoniaceae) Posidonia australis Hooker (Posidoniaceae). Annals of Botany 117: 237-247

Sinclair EA, Anthony JM, Greer D, Ruiz-Montoya L, Evans SE, Krauss SL, and Kendrick GA (2016) Genetic signatures of Bassian glacial refugia and contemporary connectivity in a marine foundation species. Journal of Biogeography 43: 2209-2222

Sinclair EA, Hovey R, Statton J, Fraser MW, Cambridge ML, and Kendrick GA (2016) Comment on ‘Seagrass viviparous propagules as a potential long-distance dispersal mechanism’ by A. C. G. Thomson et al. 2014. Estuaries and Coasts doi: 10.1007/s12237-014-9850-1. Estuaries and Coasts 39: 290-293

Smith TM, York PH, Macreadie PI, Keough M, Ross DJ, and Sherman CDH (2016) Recovery pathways from small scale disturbance in a temperate Australian seagrass. Marine Ecology Progress Series 542: 97-108

Smith TM, York PH, Macreadie PI, Keough MJ, Ross DJ, and Sherman CDH (2016) Spatial variation in reproductive effort of a Southern Australian seagrass. Marine Environmental Research 120: 214-224 

Tanner, J and Theil M (2016) Adelaide Seagrass Rehabilitation Project: 2014-2016. Final report prepared for the Adelaide and Mount Lofty Ranges Natural Resources Management Board. South Australian Research and Development Institute, Aquatic Sciences, Adelaide

Van Katwijk MM, Thorhaug A, Marbà N, Orth RJ, Duarte CM, Kendrick GA, Althuizen IHJ, Balestri E, Bernard G, Cambridge ML, Cunha A, Durance C, Giesen W, Han Q, Hosokawa S, Kiswara W, Komatsu T, Lardicci C, Lee K-S, Meinesz A, Nakaoka M, O'Brien KR, Paling EI, Pickerell C, Ransijn AMA, and Verduin JJ (2016) Global analysis of seagrass restoration: the importance of large-scale planting. Journal of Applied Ecology 53: 567-578

Weatherall EJ, Jackson EL, Hendry RA, and Campbell ML (2016) Quantifying the dispersal potential of seagrass vegetative fragments: A comparison of multiple subtropical species. Estuarine, Coastal and Shelf Science 169: 207-215

2015

Abelson A, Halpern BS, Reed DC, Orth RJ, Kendrick GA, Beck MW, Belmaker J, Krause G, Edgar GJ, Airoldi L, Brokovich E, France R, Shashar N, De Blaeij A, Stambler N, Salameh P, Shechter M, and Nelson PA (2016) Upgrading Marine Ecosystem Restoration Using Ecological–Social Concepts. BioScience 66: 156-163

Atwood T, Ritchie E, Connolly RC, Fourqurean J, Hays G, Heithaus M, Lovelock C, and Macreadie PI (2015) Predators help protect carbon stocks in blue carbon ecosystems. Nature Climate Change 5: 1038-1045

Gillies CL, Fitzsimons JA, Branigan S, Hale L, Hancock B, Creighton C, Alleway H, Bishop MJ, Brown S, Chamberlain D, Cleveland B, Crawford C, Crawford M, Diggles B, Ford JR, Hamer P, Hart A, Johnston E, McDonald T, Mcleod I, Pinner B, Russell K, and Winstanley R (2015) Scaling-up marine restoration efforts in Australia. Ecological Management & Restoration 16: 84-85

Kilminster K, Mcmahon K, Waycott M, Kendrick GA, Scanes P, Mckenzie L, O'Brien KR, Lyons M, Ferguson A, Maxwell P, Glasby T, and Udy J (2015) Unravelling complexity in seagrass systems for management: Australia as a microcosm. Science of the Total Environment 534: 97–109

Lyons M, Roelfsema C, Kovacs E, Samper-Villarreal J, Saunders M, Maxwell P, Phinn S (2015) Rapid monitoring of seagrass biomass using a simple linear modelling approach, in the field and from space. Marine Ecology Progress Series. 530: 1–14

Marbà N, Arias-Ortiz A, Masqué P, Kendrick GA, Mazarrasa I, Bastyan GR, Garcia-Orellana J, and Duarte CM (2015) Impact of seagrass loss and subsequent revegetation on carbon sequestration and stocks. Journal of Ecology 103: 296-302

Macreadie PI, Rolph T, Boyd R, Schröder-Adams C, and Skilbeck CG (2015) ENSO and coastal development enhance coastal burial of terrestrial carbon. PLoS ONE 10: e0145136

Macreadie PI, Trevathan-Tackett SM, Skilbeck CG, Sanderman J, Curlevski N, Jacobsen G, and Seymour JR (2015) Losses and recovery of organic carbon from a seagrass ecosystem following disturbance. Proceedings of the Royal Society of London B 282: 1-6

Ricart AM, York P, Rasheed MA, Pérez M, Romero J, Bryant CV, and Macreadie PI (2015) Variability of sedimentary organic carbon in patchy seagrass landscapes. Marine Pollution Bulletin 100: 476-482

Tanner JE (2015) Restoration of the seagrass Amphibolis antarctica—temporal variability and long-term success. Estuaries and Coasts 38: 668–678

Thomson ACG, York PH, Smith TM, Sherman CDH, Booth DJ, Keough MJ, Ross DJ, and Macreadie PI (2015) Seagrass viviparous propagules as a potential long-distance dispersal mechanism. Estuaries and Coasts 38: 927-940

Trevathan-Tackett SM, Kelleway J, Macreadie PI, Beardall J, Ralph P, and Bellgrove A (2015) Comparison of marine macrophytes for their contributions to blue carbon sequestration. Ecology 96: 3043-3057

Unsworth RKF, Collier CJ, Waycott M, McKenzie LJ, and Cullen-Unsworth LC (2015) A framework for the resilience of seagrass ecosystems. Marine Pollution Bulletin 100: 34-46

2014

Evans SM, Sinclair EA, Poore AGB, Steinberg PD, Kendrick GA, and Vergés A (2014) Genetic diversity in threatened Posidonia australis seagrass meadows. Conservation Genetics 15: 717-728

Glasby TM, Taylor SL, and Housefield GP (2014) Factors influencing the growth of seagrass seedlings: A case study of Posidonia australis. Aquatic Botany 120: 251-259

Macreadie PI, Baird ME, Trevathan-Tackett SM, Larkum AWD, and Ralph PJ (2014) Quantifying and modelling the carbon sequestration capacity of seagrass meadows - a critical appraisal. Marine Pollution Bulletin 83: 430-439

Macreadie PI, Schliep MT, Rasheed MA, Chartrand KM, and Ralph PJ (2014) Molecular indicators of chronic seagrass stress: A new era in the management of seagrass ecosystems? Ecological Indicators 38: 279-281

Macreadie PI, Schliep MT, Rasheed MA, Chartrand KM, and Ralph PJ (2014) Resilience of Zostera muelleri seagrass to small-scale disturbances: the relative importance of asexual versus sexual recovery. Ecology and Evolution 4: 450-461

Macreadie PI, York PH, Sherman CDH, KeoughMJ, Ross JD, and Smith TM (2014) No detectable impact of small-scale disturbance on seagrass ‘blue carbon’. Marine Biology 161: 2939–2944

Sinclair EA, Gecan I, Krauss SL, and Kendrick GA (2014) Against the odds: complete outcrossing in a monoecious clonal seagrass Posidonia australis (Posidoniaceae). Annals of Botany 113: 1185-1196

Sinclair EA, Krauss SL, Anthony J, Hovey R, and Kendrick GA (2014) The interaction of environment and genetic diversity within meadows of the seagrass Posidonia australis (Posidoniaceae). Marine Ecology Progress Series 506: 87-98

Statton J, Kendrick GA, Dixon KW, and Cambridge ML (2014) Inorganic nutrient supplements constrain restoration potential of seedlings of the seagrass, Posidonia australis. Restoration Ecology 22: 196-203

Tanner JE, Irving AD, Fernandes M, Fotheringham D, Mcardle A, and Murray-Jones S (2014) Seagrass rehabilitation off metropolitan Adelaide: A case study of loss, action, failure and success. Ecological Management & Restoration 15: 168-179

Trevathan-Tackett S, Macreadie PI, Ralph PJ, and Seymour JS (2014) Detachment and flow cytometric quantification of seagrass-associated bacteria. Journal of Microbiological Methods 102: 23-25

Vergés A, Steinberg PD, Hay ME, Poore AGB, Campbell AH, Ballesteros E, Heck KL, Booth DJ, Coleman MA, Feary DA, Figueira W, Langlois TJ, Marzinelli EM, Mizerek T, Mumby PJ, Nakamura Y, Roughan M, Van Sebille E, Gupta AS, Smale DA, Tomas F, Wernberg T, and Wilson SK (2014) The tropicalization of temperate marine ecosystems: climate-mediated changes in herbivory and community phase shifts. Proceedings of the Royal Society B 281: 20140846

2013

BMT Oceanica (2013) Transplanting Posidonia seagrass in temperate Western Australian waters: A practical ‘How To’ Guide. Available at: http://www.bmtoceanica.com.au/products/seagrass-transplanting-manual/

Irving AD, Tanner JE, and Collings GJ (2013) Rehabilitating seagrass by facilitating recruitment: Improving chances for success. Restoration Ecology 22: 134-141

Macreadie PI, Hughes AR, Kimbro DL (2013) Loss of 'blue carbon' from coastal salt marshes following habitat disturbance. PLoS ONE 8: e69244

McCormack C, Rasheed M, Davies J, Carter A, Sankey T, and Tol S (2013) Long term seagrass monitoring in the Port Curtis Western Basin: Quarterly seagrass assessments and permanent transect monitoring progress report November 2009 to November 2012. In. Centre for Tropical Water & Aquatic Ecosystem Research (TropWATER) Publication, James Cook University, Cairns, p 88

Murray-Jones, S (2013) (Ed.) Proceedings of the Third Seagrass Restoration. Workshop. South Australian Research and Development Institute, Aquatic Sciences, Adelaide

Sinclair EA, Verduin J, Krauss SL, Hardinge J, Anthony JM, and Kendrick GA (2013) A genetic assessment of a successful seagrass meadow (Posidonia australis) restoration trial. Ecological Management & Restoration 14: 68-71

Smith TM, York PH, Stanley AM, Macreadie PI, Keough MJ, Ross JD, and Sherman CDH(2013) Microsatellite primer development for the seagrass Zostera nigricaulis (Zosteraceae). Conservation Genetic Resources 5: 607–610

Statton J, Cambridge ML, Dixon KW, and Kendrick GA (2013) Aquaculture of Posidonia australis seedlings for seagrass restoration programs: Effect of sediment type and organic enrichment on growth. Restoration Ecology 21: 250-259

Verduin J, and Sinclair EA (2013) Seagrass meadow restoration trial using transplants – Cockburn Sound, Western Australia. http://site.emrprojectsummaries.org/2013/03/08/seagrass-meadow-restoration-trial-using-transplants-cockburn-sound-western-australia/

York P, and Smith TM (2013) Research, monitoring and management of seagrass ecosystems adjacent to port developments in central Queensland: literature review and gap analysis. Geelong: Deakin University.

York PH, Gruber RK, Hill R, Ralph PJ, Booth DJ, Macreadie PI (2013) Physiological and morphological responses of the temperate seagrass Zostera muelleri to multiple stressors: Investigating the interactive effects of light and temperature. PLoS ONE 8: e76377

2007 - 2012

Bastyan GR, and Cambridge ML (2008) Transplantation as a method for restoring the seagrass Posidonia australis. Estuarine, Coastal and Shelf Science 79: 289-299

Campbell ML (2010) Seagrass Restoration. The development of a decision-based restoration framework. Lambert Academic Publishing; Koln, Germany. 221pp

Collier CJ, Uthicke S, and Waycott M (2011) Thermal tolerance of two seagrass species at contrasting light levels: Implications for future distribution in the Great Barrier Reef. Limnology and Oceanography 56: 2200-2210

Collier CJ, Waycott M, and McKenzie LJ (2012) Light thresholds derived from seagrass loss in the coastal zone of the northern Great Barrier Reef, Australia. Ecological Indicators 23: 211-219 

Ganassin C, and Gibbs PJ (2008). A review of seagrass planting as a means of habitat compensation following loss of seagrass meadow. Fisheries Final Report Series No. 96, NSW Department of Primary Industries

Kendrick GA, Waycott M, Carruthers T, Cambridge ML, Hovey R, Krauss SL, Lavery P, Les D, Lowe RJ, Mascaró O, Ooi Lean Sim J, Orth RJ, Rivers D, Ruiz-Montoya L, Sinclair EA, Statton J, van Dijk K, and Verduin JJ (2012) The central role of dispersal in the maintenance and persistence of seagrass populations. BioScience 62: 56-65

Macreadie PI, Allen K, Kelaher BP, Ralph PJ, and Skilbeck CG (2012) Paleoreconstruction of estuarine sediments reveal human-induced weakening of coastal carbon sinks. Global Change Biology 18: 891-901

Matheson FE, and Wadhwa S (2012) Seagrass in Porirua Harbour: preliminary assessment of restoration potential. NIWA Report for Greater Wellington Regional Council. HAM2012-037, 35p

Matheson FE, Lundquist CJ, Gemmill CEC, and Pilditch CA (2011) New Zealand seagrass – more threatened than IUCN review indicates. Biological Conservation 144: 2749-2750

Matheson FE, Reed J, Dos Santos VM, Cummings V, Mackay G, and Jordan M (2009) Seagrass restoration in Whangarei Harbour: results of a small-scale transplantation trial. NIWA Report for Northland Regional Council. HAM2008-063, 25p

Murray-Jones S (2008) Proceedings of the Second Seagrass. Restoration Workshop. South Australian Museum, Adelaide

Paling EI, Fonseca MS, Van Katwijk MM, and Van Keulen M (2009) Seagrass Restoration. Pages 687-714 In: Perillo GME, Wolanski E, Cahoon DR and Brinson MM, (eds) Coastal Wetlands: An integrated Ecosystem Approach. Elsevier

Paling EI, Van Keulen M, and Tunbridge DJ (2007) Seagrass transplanting in Cockburn Sound, Western Australia: A comparison of manual transplantation methodology using Posidonia sinuosa Cambridge et Kuo. Restoration Ecology 15: 240-249

Renton M, Airey M, Cambridge ML, and Kendrick GA (2011) Modelling seagrass growth and development to evaluate transplanting strategies for restoration. Annals of Botany 108: 1213-1223

Sherman CDH, Stanley AM, Keough MJ, Gardner MG, and Macreadie PI (2012) Development of twenty-three novel microsatellite markers for the seagrass, Zostera muelleri from Australia. Conservation Genetic Resources 4: 689–693

Sinclair EA, Anthony JM, Coupland GT, Waycott M, Barrett MD, Barrett RL, Cambridge ML, Wallace MJ, Dixon KW, Krauss SL, and Kendrick GA (2009) Characterisation of polymorphic microsatellite markers in the widespread Australian seagrass, Posidonia australis Hook. f. (Posidoniaceae), with cross-amplification in the sympatric P. sinuosa. Conservation Genetics Resources 1: 273-276

Statton J, Dixon KW, Hovey RK, and Kendrick GA (2012) A comparative assessment of approaches and outcomes for seagrass revegetation in Shark Bay and southern Florida. Marine and Freshwater Research 63: 984-993

Unsworth RKF, Rasheed MA, Chartrand KM, and Roelofs AJ (2012) Solar radiation and tidal exposure as environmental drivers of Enhalus acoroides dominated seagrass meadows. PLoS ONE 7: e34133

Verduin JJ, Paling EI, Van Keulen M, and Rivers LE (2012) Recovery of donor meadows of Posidonia sinuosa and Posidonia australis contributes to sustainable seagrass transplantation. International Journal of Ecology Article ID: 837317

Waycott M, Duarte CM, Carruthers TJB, Orth RJ, Dennison WC, Olyarnik S, Calladine A, Fourqurean JW, Heck KL, Hughes AR, Kendrick GA, Kenworthy WJ, Short FT, and Williams SL (2009) Accelerating loss of seagrasses across the globe threatens coastal ecosystems. Proceedings of the National Academy of Sciences USA 106: 12377−12381