Optimizing seed injection as a seagrass restoration method

Due to the major declines of seagrasses worldwide, there is an urgent need for effective restoration methods and strategies. In the Dutch Wadden Sea, intertidal seagrass restoration has proven very challenging, despite numerous restoration trials with different restoration methods. Recently, however...

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Published in	Restoration ecology Vol. 31; no. 3
Main Authors	Gräfnings, Max L. E., Heusinkveld, Jannes H. T., Hoeijmakers, Dieuwke J. J., Smeele, Quirin, Wiersema, Henk, Zwarts, Maarten, Heide, Tjisse, Govers, Laura L.
Format	Journal Article
Language	English
Published	Malden, USA Wiley Periodicals, Inc 01.03.2023 Blackwell Publishing Ltd
Subjects	bottleneck reduction dispenser injection seeding method Growing season Injection Methods Plants Recruitment Restoration Sea grasses seagrass restoration Seagrasses Seeding Seeds seed‐based restoration Wadden Sea Zostera marina
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Abstract	Due to the major declines of seagrasses worldwide, there is an urgent need for effective restoration methods and strategies. In the Dutch Wadden Sea, intertidal seagrass restoration has proven very challenging, despite numerous restoration trials with different restoration methods. Recently, however, the first field trial performed with a newly developed “dispenser injection seeding” method (DIS) resulted in record‐high plant densities and seed recruitment. Here, we present the further development of the methodology and consequently improved restoration results. During two consecutive growing seasons, we honed the seeding technique and experimentally investigated how seeding depth (2/4 cm), injection density (25/100 injects/m2), and seed amount (2/20 seeds/inject) affected restoration of intertidal annual Zostera marina. We found that all variables had a significant impact on plant establishment. Seeding deeper (4 cm) had the largest positive effect on restored plant densities, while lowered seed densities (2 seeds/inject) had the largest positive impact on seed recruitment. The optimized DIS method, combined with an altered placement of the seeding hole, resulted in a 50‐fold increase in restored plant densities (from approximately 1 to 57 plants/m2) and a simultaneous increase in seed recruitment (from 0.3 to 11.4%). These improvements stem from the method's ability to counteract a recruitment bottleneck, where seeds are lost through hydrodynamic forcing. The methodological improvements described here are important steps toward restoring self‐sustaining seagrass populations in the future and our study demonstrates the high potential of the seed‐based DIS method for seagrass restoration.
AbstractList	Due to the major declines of seagrasses worldwide, there is an urgent need for effective restoration methods and strategies. In the Dutch Wadden Sea, intertidal seagrass restoration has proven very challenging, despite numerous restoration trials with different restoration methods. Recently, however, the first field trial performed with a newly developed “dispenser injection seeding” method (DIS) resulted in record‐high plant densities and seed recruitment. Here, we present the further development of the methodology and consequently improved restoration results. During two consecutive growing seasons, we honed the seeding technique and experimentally investigated how seeding depth (2/4 cm), injection density (25/100 injects/m2), and seed amount (2/20 seeds/inject) affected restoration of intertidal annual Zostera marina. We found that all variables had a significant impact on plant establishment. Seeding deeper (4 cm) had the largest positive effect on restored plant densities, while lowered seed densities (2 seeds/inject) had the largest positive impact on seed recruitment. The optimized DIS method, combined with an altered placement of the seeding hole, resulted in a 50‐fold increase in restored plant densities (from approximately 1 to 57 plants/m2) and a simultaneous increase in seed recruitment (from 0.3 to 11.4%). These improvements stem from the method's ability to counteract a recruitment bottleneck, where seeds are lost through hydrodynamic forcing. The methodological improvements described here are important steps toward restoring self‐sustaining seagrass populations in the future and our study demonstrates the high potential of the seed‐based DIS method for seagrass restoration. Due to the major declines of seagrasses worldwide, there is an urgent need for effective restoration methods and strategies. In the Dutch Wadden Sea, intertidal seagrass restoration has proven very challenging, despite numerous restoration trials with different restoration methods. Recently, however, the first field trial performed with a newly developed “dispenser injection seeding” method (DIS) resulted in record‐high plant densities and seed recruitment. Here, we present the further development of the methodology and consequently improved restoration results. During two consecutive growing seasons, we honed the seeding technique and experimentally investigated how seeding depth (2/4 cm), injection density (25/100 injects/m 2 ), and seed amount (2/20 seeds/inject) affected restoration of intertidal annual Zostera marina . We found that all variables had a significant impact on plant establishment. Seeding deeper (4 cm) had the largest positive effect on restored plant densities, while lowered seed densities (2 seeds/inject) had the largest positive impact on seed recruitment. The optimized DIS method, combined with an altered placement of the seeding hole, resulted in a 50‐fold increase in restored plant densities (from approximately 1 to 57 plants/m 2 ) and a simultaneous increase in seed recruitment (from 0.3 to 11.4%). These improvements stem from the method's ability to counteract a recruitment bottleneck, where seeds are lost through hydrodynamic forcing. The methodological improvements described here are important steps toward restoring self‐sustaining seagrass populations in the future and our study demonstrates the high potential of the seed‐based DIS method for seagrass restoration. Due to the major declines of seagrasses worldwide, there is an urgent need for effective restoration methods and strategies. In the Dutch Wadden Sea, intertidal seagrass restoration has proven very challenging, despite numerous restoration trials with different restoration methods. Recently, however, the first field trial performed with a newly developed “dispenser injection seeding” method (DIS) resulted in record‐high plant densities and seed recruitment. Here, we present the further development of the methodology and consequently improved restoration results. During two consecutive growing seasons, we honed the seeding technique and experimentally investigated how seeding depth (2/4 cm), injection density (25/100 injects/m2), and seed amount (2/20 seeds/inject) affected restoration of intertidal annual Zostera marina. We found that all variables had a significant impact on plant establishment. Seeding deeper (4 cm) had the largest positive effect on restored plant densities, while lowered seed densities (2 seeds/inject) had the largest positive impact on seed recruitment. The optimized DIS method, combined with an altered placement of the seeding hole, resulted in a 50‐fold increase in restored plant densities (from approximately 1 to 57 plants/m2) and a simultaneous increase in seed recruitment (from 0.3 to 11.4%). These improvements stem from the method's ability to counteract a recruitment bottleneck, where seeds are lost through hydrodynamic forcing. The methodological improvements described here are important steps toward restoring self‐sustaining seagrass populations in the future and our study demonstrates the high potential of the seed‐based DIS method for seagrass restoration.
Author	Zwarts, Maarten Heide, Tjisse Govers, Laura L. Hoeijmakers, Dieuwke J. J. Wiersema, Henk Heusinkveld, Jannes H. T. Smeele, Quirin Gräfnings, Max L. E.
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Cites_doi	10.1111/1365-2664.12562 10.1038/s41598-017-13833-y 10.3354/meps09522 10.1002/lno.10043 10.3389/fmars.2019.00052 10.1890/15-1077 10.1038/s41586-020-2146-7 10.1111/j.1526-100X.2010.00692.x 10.3354/meps336121 10.1098/rspb.2016.0812 10.1111/rec.12360 10.1038/s41598-019-51856-9 10.1016/j.jembe.2016.03.005 10.1007/s12237-020-00832-y 10.1016/j.jembe.2011.10.006 10.1111/j.1526-100X.2010.00691.x 10.1371/journal.pone.0215157 10.1111/1365-2664.12681 10.1111/brv.12294 10.1038/srep43172 10.1371/journal.pone.0262845 10.3389/fmars.2020.00091 10.1017/CBO9780511525551 10.1073/pnas.1515297112 10.1073/pnas.0905620106 10.3389/fevo.2019.00311 10.1515/bot-2016-0028 10.1641/0006-3568(2006)56[987:AGCFSE]2.0.CO;2 10.3354/meps313105
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Notes	Author contributions: MLEG, JHTH, TvdH, LLG conceived and designed the research; MLEG analyzed the data; all authors participated in the field experiments; MLEG wrote the first draft of the manuscript; all authors edited and contributed to the subsequent drafts, and approved submission of the manuscript.
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Snippet	Due to the major declines of seagrasses worldwide, there is an urgent need for effective restoration methods and strategies. In the Dutch Wadden Sea,...
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SubjectTerms	bottleneck reduction dispenser injection seeding method Growing season Injection Methods Plants Recruitment Restoration Sea grasses seagrass restoration Seagrasses Seeding Seeds seed‐based restoration Wadden Sea Zostera marina
Title	Optimizing seed injection as a seagrass restoration method
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