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inbox/queue/ (52 unprocessed) — landing zone for new sources
inbox/archive/{domain}/ (311 processed) — organized by domain
inbox/null-result/ (174) — reviewed, nothing extractable
One-time atomic migration. All paths preserved (wiki links use stems).
Pentagon-Agent: Epimetheus <968B2991-E2DF-4006-B962-F5B0A0CC8ACA>
4 KiB
| type | title | author | url | date | domain | secondary_domains | format | status | priority | triage_tag | tags | processed_by | processed_date | extraction_model | extraction_notes | |||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| source | When combinations of humans and AI are useful: A systematic review and meta-analysis | Michelle Vaccaro, Abdullah Almaatouq, Thomas Malone (@NatureHumBehav) | https://www.nature.com/articles/s41562-024-02024-1 | 2024-12-01 | ai-alignment |
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paper | null-result | high | claim |
|
theseus | 2026-03-18 | anthropic/claude-sonnet-4.5 | LLM returned 2 claims, 2 rejected by validator |
Content
Systematic review and meta-analysis of 106 experimental studies reporting 370 effect sizes. Published in Nature Human Behaviour, December 2024. Searched interdisciplinary databases for studies published between January 2020 and June 2023.
Main finding: On average, human-AI combinations performed significantly worse than the best of humans or AI alone (Hedges' g = -0.23; 95% CI: -0.39 to -0.07).
Task-type moderation:
- Performance LOSSES in tasks involving decision-making (deepfake classification, demand forecasting, medical diagnosis)
- Performance GAINS in tasks involving content creation (summarizing social media, chatbot responses, generating new content)
Relative performance moderation:
- When humans outperformed AI alone → performance gains in combination
- When AI outperformed humans alone → performance losses in combination
- Human-AI teams performed better than humans alone but failed to surpass AI working independently
Implication: Human-AI teams do not achieve "synergy" — they underperform compared to the best individual performer in each category. The combination is worse than the better of the two components.
Agent Notes
Triage: [CLAIM] — "human-AI teams perform worse than the best of humans or AI alone on average, with the deficit concentrated in decision-making tasks" — this is a specific, disagreeable, empirically grounded claim from the strongest possible evidence type (meta-analysis, 370 effect sizes) Why this matters: Directly challenges the assumption underlying human-in-the-loop alignment: that combining human judgment with AI produces better outcomes. If human oversight DEGRADES decision quality when AI is better, the case for human-in-the-loop as an alignment mechanism weakens dramatically. This also complicates our KB claim about centaur team performance. What surprised me: The DIRECTION-DEPENDENT finding. Humans help when they're better, hurt when AI is better. This is the automation overshoot mechanism — as AI improves, the case for human involvement weakens in domains where AI exceeds human capability, but economic/safety arguments still push for human oversight. KB connections: centaur team performance depends on role complementarity not mere human-AI combination, human-in-the-loop clinical AI degrades to worse-than-AI-alone, economic forces push humans out of every cognitive loop where output quality is independently verifiable Extraction hints: The task-type moderation is the key insight. Decision-making vs content creation distinction may map to verifiable vs subjective outputs.
Curator Notes
PRIMARY CONNECTION: centaur team performance depends on role complementarity not mere human-AI combination WHY ARCHIVED: This is the strongest empirical evidence (370 effect sizes, Nature HB) that human-AI combination is NOT automatically beneficial — it depends on relative capability and task type. Directly relevant to the automation overshoot question.
Key Facts
- Meta-analysis covered 106 experimental studies published between January 2020 and June 2023
- 370 effect sizes were analyzed across the studies
- Overall effect size: Hedges' g = -0.23 (95% CI: -0.39 to -0.07)
- Published in Nature Human Behaviour, December 2024
- Task types showing losses: deepfake classification, demand forecasting, medical diagnosis
- Task types showing gains: summarizing social media, chatbot responses, generating new content