[
  {
    "slug": "bodo-functional-divergence",
    "title": "Do single-cell Bodo genomes form a functional group distinct from the reference? A PFAM-domain divergence analysis",
    "description": "The source paper reports unexpected genetic diversity among single-cell Bodo genomes. We tested that at the level of protein-domain (PFAM) content: are th…",
    "discipline": "microbial genomics",
    "url": "https://datasetpapers.com/papers/bodo-functional-divergence/",
    "object": "https://datasetpapers.com/papers/bodo-functional-divergence/object.json",
    "version_ark": "ark:/99999/dp-bodo-divergence.v1",
    "concept_ark": "ark:/99999/dp-bodo-divergence",
    "claims": 3,
    "re_executed": 3,
    "status": "re-executed",
    "source_dataset": {
      "title": "Single-cell sequencing of Bodo spp. flagellates and their bacterial endosymbionts",
      "doi": "10.6084/m9.figshare.31362613"
    },
    "software_agent": "Claude Opus 4.8"
  },
  {
    "slug": "bodo-endosymbiont-metabolic-complementarity",
    "title": "How metabolically reduced is the Bodo endosymbiont? A quantified test of host-symbiont complementarity",
    "description": "Endosymbiotic bacteria are widely expected to be metabolically reduced relative to their hosts, retaining a subset of pathways and depending on the host f…",
    "discipline": "microbial genomics",
    "url": "https://datasetpapers.com/papers/bodo-endosymbiont-metabolic-complementarity/",
    "object": "https://datasetpapers.com/papers/bodo-endosymbiont-metabolic-complementarity/object.json",
    "version_ark": "ark:/99999/dp-bodo-endosymbiont.v1",
    "concept_ark": "ark:/99999/dp-bodo-endosymbiont",
    "claims": 4,
    "re_executed": 4,
    "status": "re-executed",
    "source_dataset": {
      "title": "Single-cell sequencing of Bodo spp. flagellates and their bacterial endosymbionts",
      "doi": "10.6084/m9.figshare.31362613"
    },
    "software_agent": "Claude Opus 4.8"
  },
  {
    "slug": "plant-ecology-marcescence-litter-chemistry",
    "title": "Marcescent litter is chemically less recalcitrant than shed litter, so its slower decomposition is not explained by bulk chemistry",
    "description": "Marcescent (persistent standing-dead) plant litter decomposes more slowly than directly shed litter, which invites a chemical-recalcitrance explanation. T…",
    "discipline": "plant functional ecology",
    "url": "https://datasetpapers.com/papers/plant-ecology-marcescence-litter-chemistry/",
    "object": "https://datasetpapers.com/papers/plant-ecology-marcescence-litter-chemistry/object.json",
    "version_ark": "ark:/99999/dp-marcescence-litter-chemistry.v1",
    "concept_ark": "ark:/99999/dp-marcescence-litter-chemistry",
    "claims": 4,
    "re_executed": 4,
    "status": "re-executed",
    "source_dataset": {
      "title": "Angst et al. 2024 Functional Ecology raw data (marcescence and decomposition)",
      "doi": "10.6084/m9.figshare.25062800"
    },
    "software_agent": "Claude Opus 4.8"
  },
  {
    "slug": "plant-ecology-marcescence-decomposition",
    "title": "Marcescent plant litter decomposes more slowly than shed litter, and the slow-down is concentrated in forbs",
    "description": "Across 34 herbaceous species grown in a common garden, litter that stood as persistent standing-dead (marcescent) tissue lost substantially less mass than…",
    "discipline": "plant functional ecology",
    "url": "https://datasetpapers.com/papers/plant-ecology-marcescence-decomposition/",
    "object": "https://datasetpapers.com/papers/plant-ecology-marcescence-decomposition/object.json",
    "version_ark": "ark:/99999/dp-marcescence-decomposition.v1",
    "concept_ark": "ark:/99999/dp-marcescence-decomposition",
    "claims": 4,
    "re_executed": 4,
    "status": "re-executed",
    "source_dataset": {
      "title": "Angst et al. 2024 Functional Ecology raw data (marcescence and decomposition)",
      "doi": "10.6084/m9.figshare.25062800"
    },
    "software_agent": "Claude Opus 4.8"
  },
  {
    "slug": "behavioural-ecology-seabird-foraging-facilitation",
    "title": "Prey-catch counts of a volant seabird are unrelated to interaction mode or conspecific-penguin number during foraging bouts",
    "description": "Across 57 observed foraging bouts, a volant seabird's prey-catch count did not differ between its two interaction modes: flight bouts (median 4, n=22) ver…",
    "discipline": "seabird foraging ecology",
    "url": "https://datasetpapers.com/papers/behavioural-ecology-seabird-foraging-facilitation/",
    "object": "https://datasetpapers.com/papers/behavioural-ecology-seabird-foraging-facilitation/object.json",
    "version_ark": "ark:/99999/dp-seabird-foraging-facilitation.v1",
    "concept_ark": "ark:/99999/dp-seabird-foraging-facilitation",
    "claims": 6,
    "re_executed": 6,
    "status": "re-executed",
    "source_dataset": {
      "title": "Data from: Up for grabs — prey herding by penguins facilitates shallow foraging by volant seabirds",
      "doi": "10.5061/dryad.5q04b32"
    },
    "software_agent": "Claude Opus 4.8"
  }
]
