Install
openclaw skills install @mohitagw15856/climate-risk-assessmentAssess physical and transition climate risk for a site, product, or portfolio with scenario-based structure. Use when asked to run a climate risk assessment, evaluate physical or transition risk, prepare TCFD/ESRS-style climate risk analysis, or assess how climate scenarios affect an asset or business. Produces a hazard-exposure-vulnerability matrix across 2030/2040/2050 horizons and labelled scenarios, with financial-impact ranges, confidence levels, and adaptation options.
openclaw skills install @mohitagw15856/climate-risk-assessmentClimate risk work goes wrong by being either vague ("weather may worsen") or falsely precise ("flood losses of $4.7M in 2043"). This skill structures an assessment as hazard × exposure × vulnerability, across explicit time horizons and named scenarios, with impact expressed as ranges plus a confidence label. It supports decision-making; it is not an engineering or actuarial study.
Ask for these if not provided; with a thin brief, proceed using labelled assumptions (e.g. "assumed coastal location — confirm") rather than refusing:
1. Structure every risk as hazard × exposure × vulnerability. A hazard (e.g. riverine flood) only becomes a risk when exposure (asset in the floodplain) meets vulnerability (no defenses, 6-week recovery). Score each component, not just the headline.
2. Use three horizons: 2030 / 2040 / 2050. Near-term physical risk is mostly locked in regardless of scenario; scenario divergence dominates from ~2040. Say which effect drives each rating.
3. Label scenarios and use them consistently:
| Label | Character | Physical risk | Transition risk |
|---|---|---|---|
| Orderly | Early, coordinated policy (~1.5–2°C) | Lower long-term | Front-loaded but predictable |
| Disorderly | Late, abrupt policy (~<2°C, delayed) | Moderate | Sharp, repricing shocks in 2030s |
| Hothouse | Weak policy (~3°C+) | High and compounding | Low policy risk, high physical + liability |
Assess at least orderly and hothouse — they bracket the outcome space. Note that transition and physical risk peak in different scenarios; a single-scenario view always understates one of them.
4. Express impact as a range with confidence. Use order-of-magnitude bands tied to the subject's financial scale (e.g. "1–5% of site revenue per event"), and tag each estimate High / Medium / Low confidence with the reason (data quality, model dependence, deep uncertainty).
5. Identify adaptation options per material risk. Categories: harden (physical protection), diversify (sites, suppliers), transfer (insurance, contracts), retreat (relocate, exit), and accept (with monitoring trigger). Note rough cost direction and by when a decision is needed.
1. Scope and assumptions — subject, horizons, scenarios used, and every assumption made from a thin brief, labelled.
2. Physical risk register — table: hazard | type (acute/chronic) | exposure | vulnerability | rating per horizon × scenario | confidence.
3. Transition risk register — same structure across policy, market, technology, and reputation risks (include transition opportunities where real).
4. Financial impact summary — the top 5 risks with impact ranges, confidence, and which scenario/horizon drives each.
5. Adaptation options — per material risk: option, category, cost direction, decision-by date.
6. Monitoring triggers — observable signals (regulation drafts, insurance repricing, hazard events) that should force a reassessment.
Include this line in the artifact: "Verify scenario selection, disclosure use, and any figures intended for reporting against the applicable standard/regulation (e.g. ESRS E1, TCFD/ISSB) with your compliance team; use engineering-grade studies before capital decisions."
TCFD/ISSB and ESRS E1 climate-risk practice (physical/transition split, scenario analysis, hazard–exposure–vulnerability structure).