Changes

On November 30, 2022 at 6:28:39 PM UTC, patdavid:

Updated description of Stable isotope values in tissues of live and stranded dolphins and manatees from the northern Gulf of Mexico from
### Abstract Stable isotope analysis (SIA) provides ecological data that can be safely and efficiently collected on endangered, threatened, and cryptic species. Marine mammals are an ecologically important group for which economical and logistical constraints can make data collection challenging. Stranded marine mammals are often used in research, but the causes of strandings and subsequent tissue decomposition could affect SIA. We conducted a three-part study to test the validity of using δ<sup>13</sup> C and δ15 N values from tissues of stranded bottlenose dolphins (Tursiops truncatus) and West Indian manatees (Trichechus manatus) for ecological studies. First, we quantified isotopic overlap using ellipses based on 95% of the data to compare isotope values in skin between stranded and live-captured animals. Second, we compared stable isotope values from liver, skin, and muscle from animals that had stranded and were sampled at different decomposition stages. Third, we experimentally exposed each tissue to environmental conditions and sampled tissues as they decomposed. For both dolphins and manatees, isotopic ellipses from skin of stranded carcasses were similar to live-captured individuals. Among individuals recovered at different decomposition stages, more advanced decomposition affected δ13 C values in dolphin liver and skin but not in manatee tissues and had no effect on δ15 N values in any tissue for either species. In the experimental manipulation, decomposition resulted in depleted δ13 C values, enriched δ15 N values, and increased C:N in liver for both species. Skin and muscle from stranded dolphins and manatees are representative of their corresponding live populations and can be used for SIA with appropriate caution. To facilitate the use of tissues from stranded animals, tissues should be dried or frozen for storage as soon as possible after sampling. We recommend liver from stranded animals only be used for SIA when researchers need tissues with short turnover times and can access fresh samples. Without consideration of decomposition effects on isotope values, ecologists may make inaccurate inferences about habitat use, diet, and community structure. Careful use of SIA on tissues from stranded animals can help researchers provide better quality information for managers and policymakers. ### Purpose This file contains two datasheets. The first sheet, titled read.me, contains column title information for the second sheet. The second sheet, title Data, contains data on stable isotope values from live and dead stranded dolphins and manatees as well as the tissue sampled (liver, skin, muscle), the condition code specifying whether the sample was from a live or dead animal and, if dead, the decomposition code at time of sampling. This sheet also contains information on the year of sampling, the total amount of carbon and nitrogen in the sample. Samples from live dolphins were from Mobile Bay, AL during 2019 and 2020. Samples from stranded animals were from 2011-2019 from coastal Alabama waters. Samples from live manatees were taken from animals between 2009-2017. Samples from stranded manatees were taken between 2008-2017. These data were used to test the first two objectives in the study outlined above. **DOI: ** [10.57778/9xbe-kr37](https://doi.org/10.57778/9xbe-kr37) ### Suggested Citation Cloyed, C., Carmichael, R., Clance, L., & Bouveroux, T. (2022). Stable isotope values of live and stranded dolphins and manatees from the northern Gulf of Mexico [Data set]. Dauphin Island Sea Lab. https://doi.org/10.57778/9XBE-KR37 ### Related Publication Citation Cloyed, C.S., Johnson, C., DaCosta, K.P., Clance, L.R., Russell, M.L., Díaz Clark, C., Hieb, E.E., Carmichael, R.H. (2023). Effects of tissue decomposition on stable isotope ratios and implications for use of stranded animals in research. Ecosphere
to
### Abstract The dataset includes stable carbon and nitrogen isotope ratios in tissues from bottlenose dolphins in coastal Alabama waters and manatees in the northern Gulf of Mexico, separated into two datasets: 1) Decomposition field study (workbook 1), which includes data from live sampled (skin) and dead stranded (liver, skin, and muscle) individuals relative to the decomposition stage of each individual. Isotope data from live dolphins were obtained using dart biopsy methods on dolphins within Mobile Bay. Isotope data from live manatees were obtained during health assessments and capture events in Alabama waters. Samples from live dolphins were from Mobile Bay, AL during 2019 and 2020. Samples from stranded dolphins were from 2011-2019 from coastal Alabama waters. Samples from live manatees were taken from animals between 2009-2017 and from stranded manatees between 2008-2017. This dataset contains the stable isotope values from live and dead stranded dolphins and manatees as well as the tissue sampled (liver, skin, muscle), the condition code specifying whether the sample was from a live or dead animal and, if dead, the decomposition code at time of sampling. This workbook also contains information on the year of sampling and the total amount of carbon and nitrogen in the sample. 2) Decomposition experiment (workbook 2), which includes stable carbon and nitrogen isotope values in liver, skin, and muscle of one dolphin and one manatee where the samples were left in natural conditions while being sampled for isotope values as they decomposed for 10 days. Subsamples were taken on days 0 (before any experimental decomposition), 1, 3, 6, and 10 to capture potential isotopic changes during decomposition. The dolphin and manatee stranded in coastal Alabama waters in 2019 (dolphin) and 2021 (manatee). This workbook contains stable carbon and nitrogen isotope values, total amount of carbon and nitrogen, tissue type, species, day sampled, and accumulated degree days (ADD), which is the sum of daily temperatures. ### Purpose These data are part of a study to test the validity of using  13 C and  15 N values from tissues of stranded bottlenose dolphins (Tursiops truncatus) and West Indian manatees (Trichechus manatus) for ecological studies. Using a combination of quantifying overlap between stranded and live-captured animals, comparing isotope values from different stages of decomposition, and sampling tissues as they experimentally decomposed, we determined that isotope values between live and dead stranded overlapped in skin but there were greater effects of decomposition occurred in tissues that decompose more quickly, such as liver. Muscle was much less affected by decomposition across the time frame we examined. These effects occurred primarily in stable carbon isotopes and stable nitrogen was less affected. Our results on the decomposition effects on stable isotope values have important implications in the use and interpretation of stable isotopes from stranded individuals. **DOI: ** [10.57778/9xbe-kr37](https://doi.org/10.57778/9xbe-kr37) ### Suggested Citation Cloyed, C., Carmichael, R., Clance, L., & Bouveroux, T. (2022). Stable isotope values of live and stranded dolphins and manatees from the northern Gulf of Mexico [Data set]. Dauphin Island Sea Lab. https://doi.org/10.57778/9XBE-KR37 ### Related Publication Citation Cloyed, C.S., Johnson, C., DaCosta, K.P., Clance, L.R., Russell, M.L., Díaz Clark, C., Hieb, E.E., Carmichael, R.H. (2023). Effects of tissue decomposition on stable isotope ratios and implications for use of stranded animals in research. Ecosphere

Added the following tags to Stable isotope values in tissues of live and stranded dolphins and manatees from the northern Gulf of Mexico
- Bottlenose dolphins
- West Indian manatees

              
    
          
          
        
        
            f 1 { f 1 {
            2   "author": "Carl Cloyed", 2   "author": "Carl Cloyed",
            3   "author_email": "ccloyed@disl.org", 3   "author_email": "ccloyed@disl.org",
            4   "creator_user_id": "383a0dce-09ad-42af-8eb5-02327d57d2a3", 4   "creator_user_id": "383a0dce-09ad-42af-8eb5-02327d57d2a3",
            5   "extras": [ 5   "extras": [
            6     { 6     {
            7       "key": "DOI", 7       "key": "DOI",
            8       "value": "https://doi.org/10.57778/9xbe-kr37" 8       "value": "https://doi.org/10.57778/9xbe-kr37"
            9     }, 9     },
            10     { 10     {
            11       "key": "Temporal Begin", 11       "key": "Temporal Begin",
            12       "value": "2011" 12       "value": "2011"
            13     }, 13     },
            14     { 14     {
            15       "key": "Temporal End", 15       "key": "Temporal End",
            16       "value": "2020" 16       "value": "2020"
            17     }, 17     },
            18     { 18     {
            19       "key": "spatial", 19       "key": "spatial",
            20       "value": "{ \"type\": \"Polygon\", \"coordinates\": [  20       "value": "{ \"type\": \"Polygon\", \"coordinates\": [ 
            21 [[-87.527456, 30.209545], [-87.527456, 30.776730], [-88.395081,  21 [[-87.527456, 30.209545], [-87.527456, 30.776730], [-88.395081, 
            22 30.776730], [-88.395081, 30.209545], [-87.527456, 30.209545]] ] }" 22 30.776730], [-88.395081, 30.209545], [-87.527456, 30.209545]] ] }"
            23     } 23     }
            24   ], 24   ],
            25   "groups": [], 25   "groups": [],
            26   "id": "3c5859a6-e3a8-4ed8-87fa-ce964823fe1c", 26   "id": "3c5859a6-e3a8-4ed8-87fa-ce964823fe1c",
            27   "isopen": false, 27   "isopen": false,
            28   "license_id": "", 28   "license_id": "",
            29   "license_title": "", 29   "license_title": "",
            30   "maintainer": "data@disl.edu", 30   "maintainer": "data@disl.edu",
            31   "maintainer_email": "data@disl.edu", 31   "maintainer_email": "data@disl.edu",
            32   "metadata_created": "2022-11-22T22:02:24.439273", 32   "metadata_created": "2022-11-22T22:02:24.439273",
            n 33   "metadata_modified": "2022-11-23T16:08:11.632115", n 33   "metadata_modified": "2022-11-30T18:28:37.949314",
            34   "name":  34   "name": 
            35 -and-stranded-dolphins-and-manatees-from-the-northern-gulf-of-mexico", 35 -and-stranded-dolphins-and-manatees-from-the-northern-gulf-of-mexico",
            n 36   "notes": "### Abstract\r\nStable isotope analysis (SIA) provides  n 36   "notes": "### Abstract\r\nThe dataset includes stable carbon and 
            37 ecological data that can be safely and efficiently\r\ncollected on  37 nitrogen isotope ratios in tissues from bottlenose\r\ndolphins in 
            38 endangered, threatened, and cryptic species. Marine mammals are an  38 coastal Alabama waters and manatees in the northern Gulf of Mexico, 
            39 ecologically important\r\ngroup for which economical and logistical  39 separated into two\r\ndatasets: 1) Decomposition field study (workbook 
            40 constraints can make data collection challenging. Stranded\r\nmarine  40 1), which includes data from live sampled (skin) and\r\ndead stranded 
            41 mammals are often used in research, but the causes of strandings and  41 (liver, skin, and muscle) individuals relative to the decomposition 
            42 subsequent tissue\r\ndecomposition could affect SIA. We conducted a  42 stage of each individual.\r\nIsotope data from live dolphins were 
            43 obtained using dart biopsy methods on dolphins within Mobile 
            44 Bay.\r\nIsotope data from live manatees were obtained during health 
            45 assessments and capture events in Alabama\r\nwaters. Samples from live 
            46 dolphins were from Mobile Bay, AL during 2019 and 2020. Samples 
            47 from\r\nstranded dolphins were from 2011-2019 from coastal Alabama 
            48 waters. Samples from live manatees were\r\ntaken from animals between 
            49 2009-2017 and from stranded manatees between 2008-2017. This 
            50 dataset\r\ncontains the stable isotope values from live and dead 
            51 stranded dolphins and manatees as well as the tissue\r\nsampled 
            52 (liver, skin, muscle), the condition code specifying whether the 
            53 sample was from a live or dead\r\nanimal and, if dead, the 
            54 decomposition code at time of sampling. This workbook also 
            55 contains\r\ninformation on the year of sampling and the total amount 
            56 of carbon and nitrogen in the sample. 2)\r\nDecomposition experiment 
            57 (workbook 2), which includes stable carbon and nitrogen isotope values 
            58 in\r\nliver, skin, and muscle of one dolphin and one manatee where the 
            59 samples were left in natural conditions\r\nwhile being sampled for 
            60 isotope values as they decomposed for 10 days. Subsamples were taken 
            61 on days\r\n0 (before any experimental decomposition), 1, 3, 6, and 10 
            62 to capture potential isotopic changes during\r\ndecomposition. The 
            63 dolphin and manatee stranded in coastal Alabama waters in 2019 
            64 (dolphin) and 2021\r\n(manatee). This workbook contains stable carbon 
            65 and nitrogen isotope values, total amount of carbon and\r\nnitrogen, 
            66 tissue type, species, day sampled, and accumulated degree days (ADD), 
            67 which is the sum of\r\ndaily temperatures.\r\n\r\n### Purpose\r\nThese 
            43 three-part study to test the validity of using \u03b4<sup>13</sup> C  68 data are part of a study to test the validity of using \uf064 13 C and 
            44 and\r\n\u03b415 N values from tissues of stranded bottlenose dolphins  69 \uf064 15 N values from tissues of\r\nstranded bottlenose dolphins 
            45 (Tursiops truncatus) and West Indian manatees\r\n(Trichechus manatus)  70 (Tursiops truncatus) and West Indian manatees (Trichechus manatus) 
            46 for ecological studies. First, we quantified isotopic overlap using  71 for\r\necological studies. Using a combination of quantifying overlap 
            47 ellipses based on\r\n95% of the data to compare isotope values in skin  
            48 between stranded and live-captured animals. Second,\r\nwe compared  72 between stranded and live-captured\r\nanimals, comparing isotope 
            49 stable isotope values from liver, skin, and muscle from animals that  73 values from different stages of decomposition, and sampling tissues as 
            50 had stranded and were\r\nsampled at different decomposition stages.  74 they\r\nexperimentally decomposed, we determined that isotope values 
            51 Third, we experimentally exposed each tissue to\r\nenvironmental  75 between live and dead stranded\r\noverlapped in skin but there were 
            52 conditions and sampled tissues as they decomposed. For both dolphins  76 greater effects of decomposition occurred in tissues that 
            53 and manatees,\r\nisotopic ellipses from skin of stranded carcasses  77 decompose\r\nmore quickly, such as liver. Muscle was much less 
            54 were similar to live-captured individuals. Among\r\nindividuals  78 affected by decomposition across the time frame we\r\nexamined. These 
            55 recovered at different decomposition stages, more advanced  79 effects occurred primarily in stable carbon isotopes and stable 
            56 decomposition affected \u03b413 C\r\nvalues in dolphin liver and skin  80 nitrogen was less\r\naffected. Our results on the decomposition 
            57 but not in manatee tissues and had no effect on \u03b415 N values in  81 effects on stable isotope values have important implications in\r\nthe 
            58 any tissue\r\nfor either species. In the experimental manipulation,  82 use and interpretation of stable isotopes from stranded 
            59 decomposition resulted in depleted \u03b413 C values,\r\nenriched  83 individuals.\r\n\r\n**DOI: ** 
            60 \u03b415 N values, and increased C:N in liver for both species. Skin  
            61 and muscle from stranded dolphins\r\nand manatees are representative  
            62 of their corresponding live populations and can be used for SIA  
            63 with\r\nappropriate caution. To facilitate the use of tissues from  
            64 stranded animals, tissues should be dried or\r\nfrozen for storage as  
            65 soon as possible after sampling. We recommend liver from stranded  
            66 animals only be\r\nused for SIA when researchers need tissues with  
            67 short turnover times and can access fresh samples.\r\nWithout  
            68 consideration of decomposition effects on isotope values, ecologists  
            69 may make inaccurate\r\ninferences about habitat use, diet, and  
            70 community structure. Careful use of SIA on tissues from  
            71 stranded\r\nanimals can help researchers provide better quality  
            72 information for managers and policymakers.\r\n\r\n### Purpose\r\nThis  
            73 file contains two datasheets. The first sheet, titled read.me,  
            74 contains column title\r\ninformation for the second sheet. The second  
            75 sheet, title Data, contains data on stable isotope values from\r\nlive  
            76 and dead stranded dolphins and manatees as well as the tissue sampled  
            77 (liver, skin, muscle), the\r\ncondition code specifying whether the  
            78 sample was from a live or dead animal and, if dead,  
            79 the\r\ndecomposition code at time of sampling. This sheet also  
            80 contains information on the year of sampling, the\r\ntotal amount of  
            81 carbon and nitrogen in the sample. Samples from live dolphins were  
            82 from Mobile Bay,\r\nAL during 2019 and 2020. Samples from stranded  
            83 animals were from 2011-2019 from coastal Alabama\r\nwaters. Samples  
            84 from live manatees were taken from animals between 2009-2017. Samples  
            85 from stranded\r\nmanatees were taken between 2008-2017. These data  
            86 were used to test the first two objectives in the study\r\noutlined  
            87 above.\r\n\r\n**DOI: **  
            88 [10.57778/9xbe-kr37](https://doi.org/10.57778/9xbe-kr37)\r\n\r\n###  84 [10.57778/9xbe-kr37](https://doi.org/10.57778/9xbe-kr37)\r\n\r\n### 
            89 Suggested Citation\r\nCloyed, C., Carmichael, R., Clance, L., &  85 Suggested Citation\r\nCloyed, C., Carmichael, R., Clance, L., & 
            90 Bouveroux, T. (2022). Stable isotope values of live and stranded  86 Bouveroux, T. (2022). Stable isotope values of live and stranded 
            91 dolphins and manatees from the northern Gulf of Mexico [Data set].  87 dolphins and manatees from the northern Gulf of Mexico [Data set]. 
            92 Dauphin Island Sea Lab. https://doi.org/10.57778/9XBE-KR37\r\n\r\n###  88 Dauphin Island Sea Lab. https://doi.org/10.57778/9XBE-KR37\r\n\r\n### 
            93 Related Publication Citation\r\nCloyed, C.S., Johnson, C., DaCosta,  89 Related Publication Citation\r\nCloyed, C.S., Johnson, C., DaCosta, 
            94 K.P., Clance, L.R., Russell, M.L., D\u00edaz Clark, C., Hieb,\r\nE.E.,  90 K.P., Clance, L.R., Russell, M.L., D\u00edaz Clark, C., Hieb,\r\nE.E., 
            95 Carmichael, R.H. (2023). Effects of tissue decomposition on stable  91 Carmichael, R.H. (2023). Effects of tissue decomposition on stable 
            96 isotope ratios and implications\r\nfor use of stranded animals in  92 isotope ratios and implications\r\nfor use of stranded animals in 
            97 research. Ecosphere", 93 research. Ecosphere",
            98   "num_resources": 2, 94   "num_resources": 2,
            n 99   "num_tags": 8, n 95   "num_tags": 10,
            100   "organization": { 96   "organization": {
            101     "approval_status": "approved", 97     "approval_status": "approved",
            102     "created": "2022-07-22T03:25:13.329710", 98     "created": "2022-07-22T03:25:13.329710",
            103     "description": "The Dauphin Island Sea Lab's (DISL) mission is to  99     "description": "The Dauphin Island Sea Lab's (DISL) mission is to 
            104 become a center for transformative U.S. oceanic and coastal research  100 become a center for transformative U.S. oceanic and coastal research 
            105 and education.. Founded in 1971 by the State of Alabama Legislature to  101 and education.. Founded in 1971 by the State of Alabama Legislature to 
            106 maximize the marine sciences capabilities of several Alabama  102 maximize the marine sciences capabilities of several Alabama 
            107 institutions and minimize duplication. \r\n\r\nLocated on the eastern  103 institutions and minimize duplication. \r\n\r\nLocated on the eastern 
            108 tip of Dauphin Island, a barrier island in the northern Gulf of  104 tip of Dauphin Island, a barrier island in the northern Gulf of 
            109 Mexico, DISL is surrounded by Mobile Bay, the Mississippi Sound, and  105 Mexico, DISL is surrounded by Mobile Bay, the Mississippi Sound, and 
            110 the waters of the Gulf, making it a perfect location to conduct a wide  106 the waters of the Gulf, making it a perfect location to conduct a wide 
            111 range of marine science activity. \r\n\r\n[The University Programs  107 range of marine science activity. \r\n\r\n[The University Programs 
            112 (UP)](https://www.disl.edu/univ-prog/) serves the students of the  108 (UP)](https://www.disl.edu/univ-prog/) serves the students of the 
            113 Marine Environmental Sciences Consortium\u2019s (MESC) 22 public and  109 Marine Environmental Sciences Consortium\u2019s (MESC) 22 public and 
            114 private four-year colleges and universities through graduate and  110 private four-year colleges and universities through graduate and 
            115 undergraduate programs. Throughout the year, graduate students conduct  111 undergraduate programs. Throughout the year, graduate students conduct 
            116 research, and attend classes while completing their degree under the  112 research, and attend classes while completing their degree under the 
            117 mentorship of faculty and staff at the Dauphin Island Sea Lab.   113 mentorship of faculty and staff at the Dauphin Island Sea Lab.  
            118 \r\n\r\n[The Discovery Hall Programs (DHP)](https://www.disl.edu/dhp/)  114 \r\n\r\n[The Discovery Hall Programs (DHP)](https://www.disl.edu/dhp/) 
            119 oversees educational programs for K-12 field programs,  115 oversees educational programs for K-12 field programs, 
            120 teacher-training, and community outreach opportunities.  \r\n[The  116 teacher-training, and community outreach opportunities.  \r\n[The 
            121 Estuarium](https://www.disl.edu/aquarium/), our public aquarium  117 Estuarium](https://www.disl.edu/aquarium/), our public aquarium 
            122 located on the Dauphin Island Sea Lab campus, is a part of DHP's  118 located on the Dauphin Island Sea Lab campus, is a part of DHP's 
            123 educational outreach mission. The Estuarium focuses solely on the  119 educational outreach mission. The Estuarium focuses solely on the 
            124 Mobile-Tensaw Estuary System. The BayMobile allows DHP educators to  120 Mobile-Tensaw Estuary System. The BayMobile allows DHP educators to 
            125 bring marine science to students across Alabama in the classroom and  121 bring marine science to students across Alabama in the classroom and 
            126 at community events. \r\n\r\nResearch programs at the Dauphin Island  122 at community events. \r\n\r\nResearch programs at the Dauphin Island 
            127 Sea Lab range from biogeochemistry and oceanography to ecosystem  123 Sea Lab range from biogeochemistry and oceanography to ecosystem 
            128 ecology. While much of our research focuses on the near-shore and  124 ecology. While much of our research focuses on the near-shore and 
            129 estuarine processes of the northern Gulf of Mexico, field sites of our  125 estuarine processes of the northern Gulf of Mexico, field sites of our 
            130 internationally-renowned faculty also include the Arctic, Mexico,  126 internationally-renowned faculty also include the Arctic, Mexico, 
            131 Australia, and other countries.\r\n\r\nThe Dauphin Island Sea Lab also  127 Australia, and other countries.\r\n\r\nThe Dauphin Island Sea Lab also 
            132 offers state and local government, industry, and agency  128 offers state and local government, industry, and agency 
            133 decision-makers a range of coastal zone management services, including  129 decision-makers a range of coastal zone management services, including 
            134 access to the nationally acclaimed data management center. Armed with  130 access to the nationally acclaimed data management center. Armed with 
            135 data through the DISL data management center, entities can make  131 data through the DISL data management center, entities can make 
            136 well-informed decisions and sound policies while considering  132 well-informed decisions and sound policies while considering 
            137 environmental impact. Another key contributor to successful coastal  133 environmental impact. Another key contributor to successful coastal 
            138 zone management is the Mobile Bay National Estuary Program, which  134 zone management is the Mobile Bay National Estuary Program, which 
            139 falls within the services of DISL.\r\n\r\n", 135 falls within the services of DISL.\r\n\r\n",
            140     "id": "cb136e67-d862-4b9e-af1c-e5c564cee512", 136     "id": "cb136e67-d862-4b9e-af1c-e5c564cee512",
            141     "image_url":  137     "image_url": 
            142 "2022-07-29-144848.512466DISL-centered-logo-w-Tag-CMYK.svg", 138 "2022-07-29-144848.512466DISL-centered-logo-w-Tag-CMYK.svg",
            143     "is_organization": true, 139     "is_organization": true,
            144     "name": "dauphin-island-sea-lab", 140     "name": "dauphin-island-sea-lab",
            145     "state": "active", 141     "state": "active",
            146     "title": "Dauphin Island Sea Lab", 142     "title": "Dauphin Island Sea Lab",
            147     "type": "organization" 143     "type": "organization"
            148   }, 144   },
            149   "owner_org": "cb136e67-d862-4b9e-af1c-e5c564cee512", 145   "owner_org": "cb136e67-d862-4b9e-af1c-e5c564cee512",
            150   "private": false, 146   "private": false,
            151   "relationships_as_object": [], 147   "relationships_as_object": [],
            152   "relationships_as_subject": [], 148   "relationships_as_subject": [],
            153   "resources": [ 149   "resources": [
            154     { 150     {
            155       "cache_last_updated": null, 151       "cache_last_updated": null,
            156       "cache_url": null, 152       "cache_url": null,
            157       "created": "2022-11-22T22:07:08.127799", 153       "created": "2022-11-22T22:07:08.127799",
            158       "datastore_active": false, 154       "datastore_active": false,
            159       "datastore_contains_all_records_of_source_file": false, 155       "datastore_contains_all_records_of_source_file": false,
            160       "description": "This file contains two datasheets. The first  156       "description": "This file contains two datasheets. The first 
            161 sheet, titled read.me, contains column title information for the  157 sheet, titled read.me, contains column title information for the 
            162 second sheet. The second sheet, title Data, contains data on stable  158 second sheet. The second sheet, title Data, contains data on stable 
            163 isotope values from live and dead stranded dolphins and manatees as  159 isotope values from live and dead stranded dolphins and manatees as 
            164 well as the tissue sampled (liver, skin, muscle), the condition code  160 well as the tissue sampled (liver, skin, muscle), the condition code 
            165 specifying whether the sample was from a live or dead animal and, if  161 specifying whether the sample was from a live or dead animal and, if 
            166 dead, the decomposition code at time of sampling. This sheet also  162 dead, the decomposition code at time of sampling. This sheet also 
            167 contains information on the year of sampling, the total amount of  163 contains information on the year of sampling, the total amount of 
            168 carbon and nitrogen in the sample. Samples from live dolphins were  164 carbon and nitrogen in the sample. Samples from live dolphins were 
            169 from Mobile Bay, AL during 2019 and 2020. Samples from stranded  165 from Mobile Bay, AL during 2019 and 2020. Samples from stranded 
            170 animals were from 2011-2019 from coastal Alabama waters. Samples from  166 animals were from 2011-2019 from coastal Alabama waters. Samples from 
            171 live manatees were taken from animals between 2009-2017. Samples from  167 live manatees were taken from animals between 2009-2017. Samples from 
            172 stranded manatees were taken between 2008-2017.", 168 stranded manatees were taken between 2008-2017.",
            173       "format": "XLSX", 169       "format": "XLSX",
            174       "hash": "", 170       "hash": "",
            175       "id": "83369dfc-c1e3-4cee-b112-0b37cfd4b401", 171       "id": "83369dfc-c1e3-4cee-b112-0b37cfd4b401",
            176       "last_modified": "2022-11-22T22:07:08.090311", 172       "last_modified": "2022-11-22T22:07:08.090311",
            177       "metadata_modified": "2022-11-22T22:12:38.232965", 173       "metadata_modified": "2022-11-22T22:12:38.232965",
            178       "mimetype":  174       "mimetype": 
            179 "application/vnd.openxmlformats-officedocument.spreadsheetml.sheet", 175 "application/vnd.openxmlformats-officedocument.spreadsheetml.sheet",
            180       "mimetype_inner": null, 176       "mimetype_inner": null,
            181       "name": "Dolphin_manatee_isotope_data.xlsx", 177       "name": "Dolphin_manatee_isotope_data.xlsx",
            182       "package_id": "3c5859a6-e3a8-4ed8-87fa-ce964823fe1c", 178       "package_id": "3c5859a6-e3a8-4ed8-87fa-ce964823fe1c",
            183       "position": 0, 179       "position": 0,
            184       "resource_type": null, 180       "resource_type": null,
            185       "size": 48293, 181       "size": 48293,
            186       "state": "active", 182       "state": "active",
            187       "url":  183       "url": 
            188 e3-4cee-b112-0b37cfd4b401/download/dolphin_manatee_isotope_data.xlsx", 184 e3-4cee-b112-0b37cfd4b401/download/dolphin_manatee_isotope_data.xlsx",
            189       "url_type": "upload" 185       "url_type": "upload"
            190     }, 186     },
            191     { 187     {
            192       "cache_last_updated": null, 188       "cache_last_updated": null,
            193       "cache_url": null, 189       "cache_url": null,
            194       "created": "2022-11-22T22:07:14.072506", 190       "created": "2022-11-22T22:07:14.072506",
            195       "datastore_active": false, 191       "datastore_active": false,
            196       "datastore_contains_all_records_of_source_file": false, 192       "datastore_contains_all_records_of_source_file": false,
            197       "description": "This file contains two datasheets. The first  193       "description": "This file contains two datasheets. The first 
            198 sheet, titled metadata, contains column title information for the  194 sheet, titled metadata, contains column title information for the 
            199 second sheet. The second sheet contains data on stable isotope values  195 second sheet. The second sheet contains data on stable isotope values 
            200 from liver, skin, and muscle of a stranded dolphin and manatee. The  196 from liver, skin, and muscle of a stranded dolphin and manatee. The 
            201 dolphin and manatee stranded in coastal Alabama waters in 2019  197 dolphin and manatee stranded in coastal Alabama waters in 2019 
            202 (dolphin) and 2021 (manatee) These tissues were exposed to natural  198 (dolphin) and 2021 (manatee) These tissues were exposed to natural 
            203 conditions and allowed to decompose. Samples were taken on days 0  199 conditions and allowed to decompose. Samples were taken on days 0 
            204 (before being put out to decompose), 1, 3, 6, and 10 during  200 (before being put out to decompose), 1, 3, 6, and 10 during 
            205 decomposition. This sheet contains stable carbon and nitrogen  201 decomposition. This sheet contains stable carbon and nitrogen 
            206 isotopes, total amount of carbon and nitrogen, tissue type, species,  202 isotopes, total amount of carbon and nitrogen, tissue type, species, 
            207 day sampled, and accumulated degree days (ADD), which is the sum of  203 day sampled, and accumulated degree days (ADD), which is the sum of 
            208 daily temperatures.", 204 daily temperatures.",
            209       "format": "XLSX", 205       "format": "XLSX",
            210       "hash": "", 206       "hash": "",
            211       "id": "f805a084-4990-4311-b316-0227a46d90ce", 207       "id": "f805a084-4990-4311-b316-0227a46d90ce",
            212       "last_modified": "2022-11-22T22:07:14.011772", 208       "last_modified": "2022-11-22T22:07:14.011772",
            213       "metadata_modified": "2022-11-22T22:12:38.233140", 209       "metadata_modified": "2022-11-22T22:12:38.233140",
            214       "mimetype":  210       "mimetype": 
            215 "application/vnd.openxmlformats-officedocument.spreadsheetml.sheet", 211 "application/vnd.openxmlformats-officedocument.spreadsheetml.sheet",
            216       "mimetype_inner": null, 212       "mimetype_inner": null,
            217       "name": "Body_farm_data.xlsx", 213       "name": "Body_farm_data.xlsx",
            218       "package_id": "3c5859a6-e3a8-4ed8-87fa-ce964823fe1c", 214       "package_id": "3c5859a6-e3a8-4ed8-87fa-ce964823fe1c",
            219       "position": 1, 215       "position": 1,
            220       "resource_type": null, 216       "resource_type": null,
            221       "size": 17608, 217       "size": 17608,
            222       "state": "active", 218       "state": "active",
            223       "url":  219       "url": 
            224 ce/f805a084-4990-4311-b316-0227a46d90ce/download/body_farm_data.xlsx", 220 ce/f805a084-4990-4311-b316-0227a46d90ce/download/body_farm_data.xlsx",
            225       "url_type": "upload" 221       "url_type": "upload"
            226     } 222     }
            227   ], 223   ],
            228   "state": "active", 224   "state": "active",
            229   "tags": [ 225   "tags": [
            230     { 226     {
            n n 227       "display_name": "Bottlenose dolphins",
            228       "id": "3c407214-2922-4304-bee3-49847a12f7d4",
            229       "name": "Bottlenose dolphins",
            230       "state": "active",
            231       "vocabulary_id": null
            232     },
            233     {
            231       "display_name": "West Indian manatee", 234       "display_name": "West Indian manatee",
            232       "id": "5b14fc7d-aab7-478d-8d56-1554226d453c", 235       "id": "5b14fc7d-aab7-478d-8d56-1554226d453c",
            233       "name": "West Indian manatee", 236       "name": "West Indian manatee",
            t t 237       "state": "active",
            238       "vocabulary_id": null
            239     },
            240     {
            241       "display_name": "West Indian manatees",
            242       "id": "250d899f-164b-4a20-8e37-5f7448361a4c",
            243       "name": "West Indian manatees",
            234       "state": "active", 244       "state": "active",
            235       "vocabulary_id": null 245       "vocabulary_id": null
            236     }, 246     },
            237     { 247     {
            238       "display_name": "accumulated degree days", 248       "display_name": "accumulated degree days",
            239       "id": "453aa2a3-c4f5-45c3-a9ca-02595780032c", 249       "id": "453aa2a3-c4f5-45c3-a9ca-02595780032c",
            240       "name": "accumulated degree days", 250       "name": "accumulated degree days",
            241       "state": "active", 251       "state": "active",
            242       "vocabulary_id": null 252       "vocabulary_id": null
            243     }, 253     },
            244     { 254     {
            245       "display_name": "bottlenose dolphins", 255       "display_name": "bottlenose dolphins",
            246       "id": "a9a32ec0-55f8-4443-be6e-7124f17bf09f", 256       "id": "a9a32ec0-55f8-4443-be6e-7124f17bf09f",
            247       "name": "bottlenose dolphins", 257       "name": "bottlenose dolphins",
            248       "state": "active", 258       "state": "active",
            249       "vocabulary_id": null 259       "vocabulary_id": null
            250     }, 260     },
            251     { 261     {
            252       "display_name": "carbon", 262       "display_name": "carbon",
            253       "id": "4c08a532-a250-4182-824f-c4c505664527", 263       "id": "4c08a532-a250-4182-824f-c4c505664527",
            254       "name": "carbon", 264       "name": "carbon",
            255       "state": "active", 265       "state": "active",
            256       "vocabulary_id": null 266       "vocabulary_id": null
            257     }, 267     },
            258     { 268     {
            259       "display_name": "decomposition code", 269       "display_name": "decomposition code",
            260       "id": "57bf51d0-94fb-4864-9662-5530b6231fec", 270       "id": "57bf51d0-94fb-4864-9662-5530b6231fec",
            261       "name": "decomposition code", 271       "name": "decomposition code",
            262       "state": "active", 272       "state": "active",
            263       "vocabulary_id": null 273       "vocabulary_id": null
            264     }, 274     },
            265     { 275     {
            266       "display_name": "marine mammal stranding network", 276       "display_name": "marine mammal stranding network",
            267       "id": "9a23cc6f-9e8f-4ddc-be04-e24d36ebe854", 277       "id": "9a23cc6f-9e8f-4ddc-be04-e24d36ebe854",
            268       "name": "marine mammal stranding network", 278       "name": "marine mammal stranding network",
            269       "state": "active", 279       "state": "active",
            270       "vocabulary_id": null 280       "vocabulary_id": null
            271     }, 281     },
            272     { 282     {
            273       "display_name": "nitrogen", 283       "display_name": "nitrogen",
            274       "id": "b543fdc1-f51b-45aa-a0e5-3bd859c9036c", 284       "id": "b543fdc1-f51b-45aa-a0e5-3bd859c9036c",
            275       "name": "nitrogen", 285       "name": "nitrogen",
            276       "state": "active", 286       "state": "active",
            277       "vocabulary_id": null 287       "vocabulary_id": null
            278     }, 288     },
            279     { 289     {
            280       "display_name": "standard ellipse area", 290       "display_name": "standard ellipse area",
            281       "id": "9df95ec8-22cf-4fea-a379-d0c052724ef4", 291       "id": "9df95ec8-22cf-4fea-a379-d0c052724ef4",
            282       "name": "standard ellipse area", 292       "name": "standard ellipse area",
            283       "state": "active", 293       "state": "active",
            284       "vocabulary_id": null 294       "vocabulary_id": null
            285     } 295     }
            286   ], 296   ],
            287   "title": "Stable isotope values in tissues of live and stranded  297   "title": "Stable isotope values in tissues of live and stranded 
            288 dolphins and manatees from\u00a0the northern Gulf of Mexico", 298 dolphins and manatees from\u00a0the northern Gulf of Mexico",
            289   "type": "dataset", 299   "type": "dataset",
            290   "url": "", 300   "url": "",
            291   "version": "0.1" 301   "version": "0.1"
            292 } 302 }