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| griddap | Subset | tabledap | Make A Graph | wms | files | Title | Summary | FGDC | ISO 19115 | Info | Background Info | RSS | Institution | Dataset ID | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| https://pallter-data.marine.rutgers.edu/erddap/tabledap/AdeliePenguinBroods.subset | https://pallter-data.marine.rutgers.edu/erddap/tabledap/AdeliePenguinBroods | https://pallter-data.marine.rutgers.edu/erddap/tabledap/AdeliePenguinBroods.graph | https://pallter-data.marine.rutgers.edu/erddap/files/AdeliePenguinBroods/ | Adelie penguin 1:2 chick nest ratio, 1991, present. | Adelie penguin 1:2 chick nest ratio, 1991 - present. The fundamental long-term objective of the seabird component of the Palmer LTER (PAL) has been to identify and understand the mechanistic processes that regulate the mean fitness (population growth rate) of regional penguin populations. Two hypotheses have guided this research, with one suggesting that population mean fitness is best explained by changes in regional krill biomass, and the other proposing that long-term changes in sea ice affects mean fitness by tipping the balance in favor of one species over another in accordance with species-specific evolved life history affinities to sea ice. Although these hypotheses are not mutually exclusive, current evidence in the PAL region tends to favor the latter over the former. Since the inception of PAL, Adélie penguin populations have effectively collapsed, while those of gentoo and chinstrap penguins have increased dramatically, trends that are spatially and temporally coherent with decreasing regional sea ice duration. Adélie penguins are an ice-obligate polar species whose life history is intimately linked to the presence of sea ice, while chinstrap and gentoo penguins are ice-intolerant species whose life histories evolved in the sub-Antarctic, where sea ice is a less permanent feature of the marine ecosystem. In contrast, although krill constitute the most important component of the summer diets by mass of these three penguin species, changes in PAL krill abundances have exhibited no long-term trends, and thus fail to explain the divergent patterns in penguin populations evident in our time series. \\n\\nThe PAL study region includes five main islands on which Adélie penguin colonies have historically occurred, and typically during the first week of January when chicks are in the guard stage (thus visible because they are no longer being brooded), these colonies are censused to determine the ratio of 1-chick to 2-chick nests. This census is restricted to nests that are no more than one meter in from the colony perimeter, and therefore tend to be more vulnerable to predation and other factors such as snow deposition that tend to affect the more marginal sectors of the colonies. The 1:2 chick ratio is thus highly sensitive to perturbations that are not necessarily evident in more optimal breeding habitats, and has provided important insights on the effects that breeding landscape quality has on reproductive success. \\n\n\ncdm_data_type = Other\nVARIABLES:\nstudy_name (Study)\ntime (seconds since 1970-01-01T00:00:00Z)\n... (6 more variables)\n | https://pallter-data.marine.rutgers.edu/erddap/info/AdeliePenguinBroods/index.htmlTable | https://pal.lternet.edu/
| http://pallter-data.marine.rutgers.edu/erddap/rss/AdeliePenguinBroods.rss | https://pallter-data.marine.rutgers.edu/erddap/subscriptions/add.html?datasetID=AdeliePenguinBroods&showErrors=false&email= | National Science Foundation | AdeliePenguinBroods | ||||
| https://pallter-data.marine.rutgers.edu/erddap/tabledap/AdeliePenguinPopulationonHumbleIsland.subset | https://pallter-data.marine.rutgers.edu/erddap/tabledap/AdeliePenguinPopulationonHumbleIsland | https://pallter-data.marine.rutgers.edu/erddap/tabledap/AdeliePenguinPopulationonHumbleIsland.graph | https://pallter-data.marine.rutgers.edu/erddap/files/AdeliePenguinPopulationonHumbleIsland/ | Adelie penguin breeding population arrival chronology on Humble Island, 1991, present.\\t | Adelie penguin breeding population arrival chronology on Humble Island, 1991 - present.\\t. The fundamental long-term objective of the seabird component of the Palmer LTER (PAL) has been to identify and understand the mechanistic processes that regulate the mean fitness (population growth rate) of regional penguin populations. Two hypotheses have guided this research, with one suggesting that population mean fitness is best explained by changes in regional krill biomass, and the other proposing that long-term changes in sea ice affects mean fitness by tipping the balance in favor of one species over another in accordance with species-specific evolved life history affinities to sea ice. Although these hypotheses are not mutually exclusive, current evidence in the PAL region tends to favor the latter over the former. Since the inception of PAL, Adélie penguin populations have effectively collapsed, while those of gentoo and chinstrap penguins have increased dramatically, trends that are spatially and temporally coherent with decreasing regional sea ice duration. Adélie penguins are an ice-obligate polar species whose life history is intimately linked to the presence of sea ice, while chinstrap and gentoo penguins are ice-intolerant species whose life histories evolved in the sub-Antarctic, where sea ice is a less permanent feature of the marine ecosystem. In contrast, although krill constitute the most important component of the summer diets by mass of these three penguin species, changes in PAL krill abundances have exhibited no long-term trends, and thus fail to explain the divergent patterns in penguin populations evident in our time series. \\n\\nThe arrival chronology of adult Adélie penguins on Humble Island is documented annually through island-wide censuses performed as ice and weather conditions permit. Recorded data (numbers of adults present) provide a measure of the number of adults arriving daily at the breeding colonies, a metric that is sensitive to environmental conditions such as sea ice extent during late winter and early spring. These data are also used in combination with other metrics to determine the optimal window for other, more extensive area-wide breeding population censuses (see CENSUS). \\n\n\ncdm_data_type = Other\nVARIABLES:\nstudy_name (Study)\ntime (Date GMT, seconds since 1970-01-01T00:00:00Z)\nisland_name (Island)\ncolony_code (Colony)\nnum_breeding_pairs (Adults)\n | https://pallter-data.marine.rutgers.edu/erddap/info/AdeliePenguinPopulationonHumbleIsland/index.htmlTable | https://pal.lternet.edu/
| http://pallter-data.marine.rutgers.edu/erddap/rss/AdeliePenguinPopulationonHumbleIsland.rss | https://pallter-data.marine.rutgers.edu/erddap/subscriptions/add.html?datasetID=AdeliePenguinPopulationonHumbleIsland&showErrors=false&email= | National Science Foundation | AdeliePenguinPopulationonHumbleIsland | ||||
| https://pallter-data.marine.rutgers.edu/erddap/tabledap/AdeliePenguinDiet | https://pallter-data.marine.rutgers.edu/erddap/tabledap/AdeliePenguinDiet.graph | https://pallter-data.marine.rutgers.edu/erddap/files/AdeliePenguinDiet/ | Adelie penguin diet composition, preliminary analyses of whole lavaged samples, 1991, present. | Adelie penguin diet composition, preliminary analyses of whole lavaged samples, 1991 - present. The fundamental long-term objective of the seabird component of the Palmer LTER (PAL) has been to identify and understand the mechanistic processes that regulate the mean fitness (population growth rate) of regional penguin populations. Two hypotheses have guided this research, with one suggesting that population mean fitness is best explained by changes in regional krill biomass, and the other proposing that long-term changes in sea ice affects mean fitness by tipping the balance in favor of one species over another in accordance with species-specific evolved life history affinities to sea ice. Although these hypotheses are not mutually exclusive, current evidence in the PAL region tends to favor the latter over the former. Since the inception of PAL, Adélie penguin populations have effectively collapsed, while those of gentoo and chinstrap penguins have increased dramatically, trends that are spatially and temporally coherent with decreasing regional sea ice duration. Adélie penguins are an ice-obligate polar species whose life history is intimately linked to the presence of sea ice, while chinstrap and gentoo penguins are ice-intolerant species whose life histories evolved in the sub-Antarctic, where sea ice is a less permanent feature of the marine ecosystem. In contrast, although krill constitute the most important component of the summer diets by mass of these three penguin species, changes in PAL krill abundances have exhibited no long-term trends, and thus fail to explain the divergent patterns in penguin populations evident in our time series. \\n\\nAdélie penguin diet samples obtained in the field (see HEADER) are initially drained and weighed and returned to laboratories for further processing. This includes resuspension of the samples in fresh water to release fish otoliths, squid beaks and other prey hard parts, and then draining to a consistency that facilitates separating the diet samples into subsamples of primary and secondary prey components. Primary prey components include krill and fish, and secondary prey components include octopus, squid amphipods, mysid shrimp, limpets and small clams. Each prey component is weighed (total weight) and, if possible, sorted according to species for further analyses. Variability in diets within and between seasons is strongly linked to variability in the marine environment such as the presence or absence of sea ice and the timing and persistence of phytoplankton blooms, and thus affects a host of Adélie penguin life history parameters. \\n\n\ncdm_data_type = Other\nVARIABLES:\nstudy_name (Study)\n... (9 more variables)\n | https://pallter-data.marine.rutgers.edu/erddap/info/AdeliePenguinDiet/index.htmlTable | https://pal.lternet.edu/
| http://pallter-data.marine.rutgers.edu/erddap/rss/AdeliePenguinDiet.rss | https://pallter-data.marine.rutgers.edu/erddap/subscriptions/add.html?datasetID=AdeliePenguinDiet&showErrors=false&email= | National Science Foundation | AdeliePenguinDiet | |||||
| https://pallter-data.marine.rutgers.edu/erddap/tabledap/AdeliePenguinDietPreyOtherThanFishAndEuphausiaSuberba.subset | https://pallter-data.marine.rutgers.edu/erddap/tabledap/AdeliePenguinDietPreyOtherThanFishAndEuphausiaSuberba | https://pallter-data.marine.rutgers.edu/erddap/tabledap/AdeliePenguinDietPreyOtherThanFishAndEuphausiaSuberba.graph | https://pallter-data.marine.rutgers.edu/erddap/files/AdeliePenguinDietPreyOtherThanFishAndEuphausiaSuberba/ | Adelie penguin diet composition, secondary prey items, 1991, present.\\t | Adelie penguin diet composition, secondary prey items, 1991 - present.\\t. The fundamental long-term objective of the seabird component of the Palmer LTER (PAL) has been to identify and understand the mechanistic processes that regulate the mean fitness (population growth rate) of regional penguin populations. Two hypotheses have guided this research, with one suggesting that population mean fitness is best explained by changes in regional krill biomass, and the other proposing that long-term changes in sea ice affects mean fitness by tipping the balance in favor of one species over another in accordance with species-specific evolved life history affinities to sea ice. Although these hypotheses are not mutually exclusive, current evidence in the PAL region tends to favor the latter over the former. Since the inception of PAL, Adélie penguin populations have effectively collapsed, while those of gentoo and chinstrap penguins have increased dramatically, trends that are spatially and temporally coherent with decreasing regional sea ice duration. Adélie penguins are an ice-obligate polar species whose life history is intimately linked to the presence of sea ice, while chinstrap and gentoo penguins are ice-intolerant species whose life histories evolved in the sub-Antarctic, where sea ice is a less permanent feature of the marine ecosystem. In contrast, although krill constitute the most important component of the summer diets by mass of these three penguin species, changes in PAL krill abundances have exhibited no long-term trends, and thus fail to explain the divergent patterns in penguin populations evident in our time series. \\n\\nBesides krill and fish, a number of secondary prey items (see DIET) can be found in Adélie penguin diets, including octopus, squid, amphipods, mysid shrimp, limpets and small clams. One or more of these prey types may occur frequently in the samples, but very rarely in abundance, hence recorded metrics are limited to detailing the number of specimens observed and obtaining weights if warranted by the sample size. One exception concerns squid and octopus beaks, which like fish otoliths can be identified to species and the size and mass of individuals reconstituted based on regressions that use beak length to determine relational metrics. Like otoliths, beaks are also processed by experts outside PAL (see FISH), hence similar time lags exist in database integration. What role these less abundant prey items have in Adélie penguin diets is unknown, but paleoecological evidence suggests that squid in particular were once consumed much more frequently in the PAL region than they are now.\\n\n\ncdm_data_type = Other\nVARIABLES:\nstudy_name (Study)\n... (11 more variables)\n | https://pallter-data.marine.rutgers.edu/erddap/info/AdeliePenguinDietPreyOtherThanFishAndEuphausiaSuberba/index.htmlTable | https://pal.lternet.edu/
| http://pallter-data.marine.rutgers.edu/erddap/rss/AdeliePenguinDietPreyOtherThanFishAndEuphausiaSuberba.rss | https://pallter-data.marine.rutgers.edu/erddap/subscriptions/add.html?datasetID=AdeliePenguinDietPreyOtherThanFishAndEuphausiaSuberba&showErrors=false&email= | National Science Foundation | AdeliePenguinDietPreyOtherThanFishAndEuphausiaSuberba | ||||
| https://pallter-data.marine.rutgers.edu/erddap/tabledap/AdeliePenguinDietLog.subset | https://pallter-data.marine.rutgers.edu/erddap/tabledap/AdeliePenguinDietLog | https://pallter-data.marine.rutgers.edu/erddap/tabledap/AdeliePenguinDietLog.graph | https://pallter-data.marine.rutgers.edu/erddap/files/AdeliePenguinDietLog/ | Adelie penguin diet metadata, 1991, present. | Adelie penguin diet metadata, 1991 - present. The fundamental long-term objective of the seabird component of the Palmer LTER (PAL) has been to identify and understand the mechanistic processes that regulate the mean fitness (population growth rate) of regional penguin populations. Two hypotheses have guided this research, with one suggesting that population mean fitness is best explained by changes in regional krill biomass, and the other proposing that long-term changes in sea ice affects mean fitness by tipping the balance in favor of one species over another in accordance with species-specific evolved life history affinities to sea ice. Although these hypotheses are not mutually exclusive, current evidence in the PAL region tends to favor the latter over the former. Since the inception of PAL, Adélie penguin populations have effectively collapsed, while those of gentoo and chinstrap penguins have increased dramatically, trends that are spatially and temporally coherent with decreasing regional sea ice duration. Adélie penguins are an ice-obligate polar species whose life history is intimately linked to the presence of sea ice, while chinstrap and gentoo penguins are ice-intolerant species whose life histories evolved in the sub-Antarctic, where sea ice is a less permanent feature of the marine ecosystem. In contrast, although krill constitute the most important component of the summer diets by mass of these three penguin species, changes in PAL krill abundances have exhibited no long-term trends, and thus fail to explain the divergent patterns in penguin populations evident in our time series. \\n\\n\\nAdélie penguin diet samples are obtained during the chick-rearing phase of the breeding season (January -February) using stomach lavage (water off-loading method). Five adult penguins are typically sampled every 5-7 days (weather permitting) during this period by capturing birds near their breeding colonies as they return from foraging in the evenings. Before lavaging, birds are weighed and measured to obtain an index of gender and condition, and are then released at the site where they were initially captured. Variability in adult condition within and between seasons provides an important index of foraging effort and other related metrics. \\n\n\ncdm_data_type = Other\nVARIABLES:\nstudy_name (Study)\ntime (Sample Date/Time, seconds since 1970-01-01T00:00:00Z)\nisland_name (Island)\ncolony_code (Colony)\n... (5 more variables)\n | https://pallter-data.marine.rutgers.edu/erddap/info/AdeliePenguinDietLog/index.htmlTable | https://pal.lternet.edu/
| http://pallter-data.marine.rutgers.edu/erddap/rss/AdeliePenguinDietLog.rss | https://pallter-data.marine.rutgers.edu/erddap/subscriptions/add.html?datasetID=AdeliePenguinDietLog&showErrors=false&email= | National Science Foundation | AdeliePenguinDietLog |