f | { | f | { |
| "author": "Benjamin Belgrad", | | "author": "Benjamin Belgrad", |
| "author_email": "babelgra@eckerd.edu", | | "author_email": "babelgra@eckerd.edu", |
| "creator_user_id": "383a0dce-09ad-42af-8eb5-02327d57d2a3", | | "creator_user_id": "383a0dce-09ad-42af-8eb5-02327d57d2a3", |
| "extras": [ | | "extras": [ |
| { | | { |
| "key": "ISO.author", | | "key": "ISO.author", |
| "value": "Benjamin Belgrad <babelgra@eckerd.edu>" | | "value": "Benjamin Belgrad <babelgra@eckerd.edu>" |
| }, | | }, |
| { | | { |
| "key": "ISO.author.1", | | "key": "ISO.author.1", |
| "value": "Carter Lin <clin@disl.org>" | | "value": "Carter Lin <clin@disl.org>" |
| }, | | }, |
| { | | { |
| "key": "ISO.author.2", | | "key": "ISO.author.2", |
| "value": "Christa Russell <crussell@disl.org>" | | "value": "Christa Russell <crussell@disl.org>" |
| }, | | }, |
| { | | { |
| "key": "ISO.author.3", | | "key": "ISO.author.3", |
| "value": "Randi Cannon <rcannon@disl.org>" | | "value": "Randi Cannon <rcannon@disl.org>" |
| }, | | }, |
| { | | { |
| "key": "ISO.author.4", | | "key": "ISO.author.4", |
| "value": "Jessica Lunt <jlunt@disl.org>" | | "value": "Jessica Lunt <jlunt@disl.org>" |
| }, | | }, |
| { | | { |
| "key": "ISO.author.5", | | "key": "ISO.author.5", |
| "value": "Lee Smee <lsmee@disl.org>" | | "value": "Lee Smee <lsmee@disl.org>" |
| }, | | }, |
| { | | { |
| "key": "Temporal Begin", | | "key": "Temporal Begin", |
| "value": "2021-05-01" | | "value": "2021-05-01" |
| }, | | }, |
| { | | { |
| "key": "Temporal End", | | "key": "Temporal End", |
| "value": "2022-06-01" | | "value": "2022-06-01" |
| }, | | }, |
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| "value": "{\"type\": \"Polygon\", | | "value": "{\"type\": \"Polygon\", |
| 88.316519,30.374253],[-88.316519,30.374253],[-88.316519,30.374253]]]}" | | 88.316519,30.374253],[-88.316519,30.374253],[-88.316519,30.374253]]]}" |
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| "license_id": "notspecified", | | "license_id": "notspecified", |
| "license_title": "License not specified", | | "license_title": "License not specified", |
| "maintainer": "data@disl.edu", | | "maintainer": "data@disl.edu", |
| "maintainer_email": "data@disl.edu", | | "maintainer_email": "data@disl.edu", |
| "metadata_created": "2024-11-22T15:29:25.784436", | | "metadata_created": "2024-11-22T15:29:25.784436", |
n | "metadata_modified": "2024-11-22T20:59:35.662126", | n | "metadata_modified": "2024-11-22T21:00:22.483145", |
| "name": | | "name": |
| uced-defenses-dissipate-by-maturity-for-diploid-and-triploid-oysters", | | uced-defenses-dissipate-by-maturity-for-diploid-and-triploid-oysters", |
| "notes": "### Abstract\r\nThese data include oyster morphological | | "notes": "### Abstract\r\nThese data include oyster morphological |
| characteristics of diploid and triploid oysters cultured as \"single | | characteristics of diploid and triploid oysters cultured as \"single |
| seed\". Oysters were nursed with and without predator cues (caged blue | | seed\". Oysters were nursed with and without predator cues (caged blue |
| crabs, controls of no cues) for one month before being raised at | | crabs, controls of no cues) for one month before being raised at |
| Auburn University's experimental farm in Grand Bay AL following | | Auburn University's experimental farm in Grand Bay AL following |
| standard aquaculture procedures. Subsets of oysters were assessed | | standard aquaculture procedures. Subsets of oysters were assessed |
| periodically until maturity for shell strength, shell size, shell dry | | periodically until maturity for shell strength, shell size, shell dry |
| weight and soft tissue dry weight using a Kistler force sensor and | | weight and soft tissue dry weight using a Kistler force sensor and |
| drying oven. Oyster somatic tissue mass, reproductive tissue mass, and | | drying oven. Oyster somatic tissue mass, reproductive tissue mass, and |
| gonadosomatic index were also measured at maturity and shortly prior | | gonadosomatic index were also measured at maturity and shortly prior |
| to maturity. \r\n\r\n### Purpose\r\nOysters are phenotypically | | to maturity. \r\n\r\n### Purpose\r\nOysters are phenotypically |
| plastic, and rearing juvenile oysters, Crassostrea virginica, with | | plastic, and rearing juvenile oysters, Crassostrea virginica, with |
| predator cues causes them to grow stronger shells that increases | | predator cues causes them to grow stronger shells that increases |
| survivorship in the field. However, induced defenses (e.g., shell | | survivorship in the field. However, induced defenses (e.g., shell |
| hardening in oysters) are often associated with cost-benefit | | hardening in oysters) are often associated with cost-benefit |
| trade-offs, and the extent the increased shell strength persists into | | trade-offs, and the extent the increased shell strength persists into |
| adulthood and alters the growth of somatic and reproductive tissues | | adulthood and alters the growth of somatic and reproductive tissues |
| remains unknown. We raised diploid oysters (used in reef restoration) | | remains unknown. We raised diploid oysters (used in reef restoration) |
| and triploid oysters (used in aquaculture) with and without predator | | and triploid oysters (used in aquaculture) with and without predator |
| cues for one month before placing individuals on an oyster farm to | | cues for one month before placing individuals on an oyster farm to |
| grow to market size. Oyster shell characteristics, soft tissue mass, | | grow to market size. Oyster shell characteristics, soft tissue mass, |
| and reproductive investment were measured periodically over one year | | and reproductive investment were measured periodically over one year |
| of culture and compared across treatments. Both diploid and triploid | | of culture and compared across treatments. Both diploid and triploid |
| oysters had significantly stronger and smaller shells than controls at | | oysters had significantly stronger and smaller shells than controls at |
| the end of their nursery period. However, while diploid shells became | | the end of their nursery period. However, while diploid shells became |
| 15 % stronger and 17 % smaller\r\nthan controls, triploid shells | | 15 % stronger and 17 % smaller\r\nthan controls, triploid shells |
| became 28 % stronger and 23 % smaller. Additionally, triploid oysters | | became 28 % stronger and 23 % smaller. Additionally, triploid oysters |
| exposed to predator cues returned to the size of controls faster and | | exposed to predator cues returned to the size of controls faster and |
| maintained their shell strength differences longer than diploids. | | maintained their shell strength differences longer than diploids. |
| Differences in soft tissue mass between treatments mirrored the | | Differences in soft tissue mass between treatments mirrored the |
| patterns exhibited in shell size and weight with greater initial | | patterns exhibited in shell size and weight with greater initial |
| physiological costs and faster recovery for triploid individuals. | | physiological costs and faster recovery for triploid individuals. |
| There was no significant difference in somatic or reproductive tissue | | There was no significant difference in somatic or reproductive tissue |
| mass between induced and control oysters of the same ploidy after | | mass between induced and control oysters of the same ploidy after |
| seven months in the field. Triploid oysters were 15\u2013110 % larger | | seven months in the field. Triploid oysters were 15\u2013110 % larger |
| than diploids depending on the characteristic measured at maturity. | | than diploids depending on the characteristic measured at maturity. |
| Additionally, there was a significant interaction between treatment | | Additionally, there was a significant interaction between treatment |
| and ploidy because induced triploids had marginally greater growth | | and ploidy because induced triploids had marginally greater growth |
| than their control counterparts while induced diploids had marginally | | than their control counterparts while induced diploids had marginally |
| less growth than controls. These findings demonstrate that | | less growth than controls. These findings demonstrate that |
| physiological costs of oysters reacting to predators in early life | | physiological costs of oysters reacting to predators in early life |
| stages are minimal by the time individuals reach maturity. Early | | stages are minimal by the time individuals reach maturity. Early |
| exposure to predator cues is a promising tool for improving oyster | | exposure to predator cues is a promising tool for improving oyster |
| survivorship in restoration and aquaculture operations, especially in | | survivorship in restoration and aquaculture operations, especially in |
| regions with high predation pressure. Data were collected by Dr. | | regions with high predation pressure. Data were collected by Dr. |
| Benjamin Belgrad, Dr. Lee Smee, Dr. Jessica Lunt, Mr. Carter Lin, Mrs. | | Benjamin Belgrad, Dr. Lee Smee, Dr. Jessica Lunt, Mr. Carter Lin, Mrs. |
| Christa Russell, and Ms. Randi Cannon.\r\n\r\n**DOI: | | Christa Russell, and Ms. Randi Cannon.\r\n\r\n**DOI: |
| [10.57778/pvh5-xp09](https://doi.org/10.57778/pvh5-xp09)**\r\n\r\n### | | [10.57778/pvh5-xp09](https://doi.org/10.57778/pvh5-xp09)**\r\n\r\n### |
t | Suggested Citation\r\n\r\n### Related Publication Citation", | t | Suggested Citation\r\nSmee, D., Belgrad, B., & Walton, W. (2022). |
| | | _Induced defenses as a management tool: Shaping individuals to their |
| | | environment_ (Version 0.1) [Data set]. Dauphin Island Sea Lab. |
| | | https://doi.org/10.57778/AY2H-NZ04\r\n\r\n### Related Publication |
| | | Citation", |
| "num_resources": 1, | | "num_resources": 1, |
| "num_tags": 15, | | "num_tags": 15, |
| "organization": { | | "organization": { |
| "approval_status": "approved", | | "approval_status": "approved", |
| "created": "2022-07-22T03:25:13.329710", | | "created": "2022-07-22T03:25:13.329710", |
| "description": "The Dauphin Island Sea Lab's (DISL) mission is to | | "description": "The Dauphin Island Sea Lab's (DISL) mission is to |
| become a center for transformative U.S. oceanic and coastal research | | become a center for transformative U.S. oceanic and coastal research |
| and education.. Founded in 1971 by the State of Alabama Legislature to | | and education.. Founded in 1971 by the State of Alabama Legislature to |
| maximize the marine sciences capabilities of several Alabama | | maximize the marine sciences capabilities of several Alabama |
| institutions and minimize duplication. \r\n\r\nLocated on the eastern | | institutions and minimize duplication. \r\n\r\nLocated on the eastern |
| tip of Dauphin Island, a barrier island in the northern Gulf of | | tip of Dauphin Island, a barrier island in the northern Gulf of |
| Mexico, DISL is surrounded by Mobile Bay, the Mississippi Sound, and | | Mexico, DISL is surrounded by Mobile Bay, the Mississippi Sound, and |
| the waters of the Gulf, making it a perfect location to conduct a wide | | the waters of the Gulf, making it a perfect location to conduct a wide |
| range of marine science activity. \r\n\r\n[The University Programs | | range of marine science activity. \r\n\r\n[The University Programs |
| (UP)](https://www.disl.edu/univ-prog/) serves the students of the | | (UP)](https://www.disl.edu/univ-prog/) serves the students of the |
| Marine Environmental Sciences Consortium\u2019s (MESC) 22 public and | | Marine Environmental Sciences Consortium\u2019s (MESC) 22 public and |
| private four-year colleges and universities through graduate and | | private four-year colleges and universities through graduate and |
| undergraduate programs. Throughout the year, graduate students conduct | | undergraduate programs. Throughout the year, graduate students conduct |
| research, and attend classes while completing their degree under the | | research, and attend classes while completing their degree under the |
| mentorship of faculty and staff at the Dauphin Island Sea Lab. | | mentorship of faculty and staff at the Dauphin Island Sea Lab. |
| \r\n\r\n[The Discovery Hall Programs (DHP)](https://www.disl.edu/dhp/) | | \r\n\r\n[The Discovery Hall Programs (DHP)](https://www.disl.edu/dhp/) |
| oversees educational programs for K-12 field programs, | | oversees educational programs for K-12 field programs, |
| teacher-training, and community outreach opportunities. \r\n[The | | teacher-training, and community outreach opportunities. \r\n[The |
| Estuarium](https://www.disl.edu/aquarium/), our public aquarium | | Estuarium](https://www.disl.edu/aquarium/), our public aquarium |
| located on the Dauphin Island Sea Lab campus, is a part of DHP's | | located on the Dauphin Island Sea Lab campus, is a part of DHP's |
| educational outreach mission. The Estuarium focuses solely on the | | educational outreach mission. The Estuarium focuses solely on the |
| Mobile-Tensaw Estuary System. The BayMobile allows DHP educators to | | Mobile-Tensaw Estuary System. The BayMobile allows DHP educators to |
| bring marine science to students across Alabama in the classroom and | | bring marine science to students across Alabama in the classroom and |
| at community events. \r\n\r\nResearch programs at the Dauphin Island | | at community events. \r\n\r\nResearch programs at the Dauphin Island |
| Sea Lab range from biogeochemistry and oceanography to ecosystem | | Sea Lab range from biogeochemistry and oceanography to ecosystem |
| ecology. While much of our research focuses on the near-shore and | | ecology. While much of our research focuses on the near-shore and |
| estuarine processes of the northern Gulf of Mexico, field sites of our | | estuarine processes of the northern Gulf of Mexico, field sites of our |
| internationally-renowned faculty also include the Arctic, Mexico, | | internationally-renowned faculty also include the Arctic, Mexico, |
| Australia, and other countries.\r\n\r\nThe Dauphin Island Sea Lab also | | Australia, and other countries.\r\n\r\nThe Dauphin Island Sea Lab also |
| offers state and local government, industry, and agency | | offers state and local government, industry, and agency |
| decision-makers a range of coastal zone management services, including | | decision-makers a range of coastal zone management services, including |
| access to the nationally acclaimed data management center. Armed with | | access to the nationally acclaimed data management center. Armed with |
| data through the DISL data management center, entities can make | | data through the DISL data management center, entities can make |
| well-informed decisions and sound policies while considering | | well-informed decisions and sound policies while considering |
| environmental impact. Another key contributor to successful coastal | | environmental impact. Another key contributor to successful coastal |
| zone management is the Mobile Bay National Estuary Program, which | | zone management is the Mobile Bay National Estuary Program, which |
| falls within the services of DISL.\r\n\r\n", | | falls within the services of DISL.\r\n\r\n", |
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| "state": "active", | | "state": "active", |
| "tags": [ | | "tags": [ |
| { | | { |
| "display_name": "aquaculture", | | "display_name": "aquaculture", |
| "id": "4b945361-232a-49f7-a7cf-54bb9be0e097", | | "id": "4b945361-232a-49f7-a7cf-54bb9be0e097", |
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| "name": "cost-benefit trade-off", | | "name": "cost-benefit trade-off", |
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| "name": "diploid", | | "name": "diploid", |
| "state": "active", | | "state": "active", |
| "vocabulary_id": null | | "vocabulary_id": null |
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| { | | { |
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| "name": "gonadosomatic index", | | "name": "gonadosomatic index", |
| "state": "active", | | "state": "active", |
| "vocabulary_id": null | | "vocabulary_id": null |
| }, | | }, |
| { | | { |
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| "name": "oysters", | | "name": "oysters", |
| "state": "active", | | "state": "active", |
| "vocabulary_id": null | | "vocabulary_id": null |
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| { | | { |
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| "state": "active", | | "state": "active", |
| "vocabulary_id": null | | "vocabulary_id": null |
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| "name": "physiological costs", | | "name": "physiological costs", |
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| "name": "predator cues", | | "name": "predator cues", |
| "state": "active", | | "state": "active", |
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| "name": "reef restoration", | | "name": "reef restoration", |
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| "name": "reproductive tissue mass", | | "name": "reproductive tissue mass", |
| "state": "active", | | "state": "active", |
| "vocabulary_id": null | | "vocabulary_id": null |
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| "name": "shell size", | | "name": "shell size", |
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| "name": "shell strength", | | "name": "shell strength", |
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| "name": "soft tissue mass", | | "name": "soft tissue mass", |
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| "vocabulary_id": null | | "vocabulary_id": null |
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| "name": "survivorship", | | "name": "survivorship", |
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| "vocabulary_id": null | | "vocabulary_id": null |
| }, | | }, |
| { | | { |
| "display_name": "triploid", | | "display_name": "triploid", |
| "id": "4e084edf-c116-48a2-995d-eac059f3876b", | | "id": "4e084edf-c116-48a2-995d-eac059f3876b", |
| "name": "triploid", | | "name": "triploid", |
| "state": "active", | | "state": "active", |
| "vocabulary_id": null | | "vocabulary_id": null |
| } | | } |
| ], | | ], |
| "title": "Costs of induced defenses dissipate by maturity for | | "title": "Costs of induced defenses dissipate by maturity for |
| diploid and triploid oysters", | | diploid and triploid oysters", |
| "type": "dataset", | | "type": "dataset", |
| "url": "", | | "url": "", |
| "version": "" | | "version": "" |
| } | | } |