# Will there be an at least 8.0 magnitude earthquake in California before 2035?

Before 2035

Updated: May 6, 2026

Category: Climate and Weather

HTML: /markets/climate-and-weather/will-there-be-an-at-least-8-0-magnitude-earthquake-in-california-before-2035/

## Short Answer

**Key takeaway.** Both the **model** and the **market** expect an at least 8.0 magnitude earthquake in California before 2035, with no compelling evidence of mispricing.

## Key Claims (January 2026)

**- - UCERF3 projects a 7% M8+ earthquake probability over 30 years.** - Agencies update M8+ probabilities based on models, not specific precursors.
- UCERF4 development aims to revise California's M8+ earthquake probabilities.
- Northern section of the southern San Andreas Fault shows higher rupture potential.

### Why This Matters (GEO)

- AI agents extract claims, not arguments.
- Improves citation probability in summaries and answer cards.
- Enables fact stitching across multiple sources.

## Executive Verdict

**Key takeaway.** **Market** at **31%** is 9.2 percentage points above the **21.8%** **model**, far exceeding UCERF3's **7%** likelihood by 2035.

### Who Wins and Why

| Outcome | Market | Model | Why |
| --- | --- | --- | --- |
| Before 2035 | 31.0% | 21.8% | California's active fault systems are known to produce extremely powerful 8.0+ magnitude earthquakes. |

## Model vs Market

- Model Probability: 21.8% (Yes)
- Market Probability: 31.0% (Yes)
- Yes refers to: Before 2035
- Edge: -9.2pp
- Expected Return: -29.8%
- R-Score: -0.92
- Total Volume: $19,065.06
- 24h Volume: $135.06
- Open Interest: $13,198.06

- Expiration: December 31, 2035

## Market Behavior & Price Dynamics

This prediction market has exhibited a stable, sideways trading pattern since its inception. The price has been confined to a narrow 6-point range, fluctuating between 28% and 34%. This establishes a clear support level at 28% and a resistance level at 34%. The current price of 31% sits squarely in the middle of this channel, indicating a lack of directional momentum. The low total volume of 188 contracts traded across 196 data points suggests a thin market with limited participation and conviction from traders. The early price movements, which show a swing from 28% to 34%, occurred on zero volume, which is typical of an initial price discovery phase in a low-liquidity market.

The stability of the market price reflects the long-term, static nature of the underlying scientific data. The provided context, based on the 2015 USGS UCERF3 model, has not changed significantly, and there are no recent seismic events or new studies mentioned that would cause traders to re-evaluate the probability. Therefore, the market has remained in its established range. The lack of significant price spikes or drops corresponds directly to the absence of any new, market-moving information regarding California's seismic risk for an event of this magnitude.

Market sentiment, as reflected by the price, is notably disconnected from the primary scientific forecast. While the USGS model estimates a mean probability of 7% for an M8.0+ earthquake over 30 years, this market is consistently pricing the probability for the period ending in 2035 at around 31%. This significant premium suggests that traders may be pricing in a higher perception of risk, accounting for the model's uncertainty range (up to 32%), or factoring in other variables not present in the scientific model. The low trading volume indicates that this higher probability is not supported by strong market conviction and the price could be susceptible to movement if significant capital were to enter the market.

## Contract Snapshot

The market resolves to "Yes" if an earthquake of at least 8.0 magnitude, with an epicenter in California or its territorial waters, occurs before December 31, 2035, as verified by USGS; otherwise, it resolves to "No." The market opened on June 21, 2025, and will close early if the event occurs, or by December 30, 2035, at 11:59 PM EST if it does not, with payouts projected 30 minutes after closing. Insider trading is prohibited for persons with material non-public information or those employed by the Source Agencies.

## Market Discussion

Traders are primarily discussing the probability of an 8.0 magnitude earthquake in California before 2035, with arguments largely focused on recent seismic activity. Proponents of "Yes" cite perceived recent large earthquakes (e.g., claimed 7.0M or 7.2M events) as indicators of a higher likelihood, viewing it as a profitable opportunity given that payouts occur immediately if the event happens. Conversely, "No" arguments challenge the veracity of these claimed recent large quakes, while some traders also note the extended time horizon of the market, which influences investment decisions and raises questions about platform stability.

## Market Data

| Contract | Yes Bid | Yes Ask | Last Price | Volume | Open Interest |
| --- | --- | --- | --- | --- | --- |
| Before 2035 | 30% | 31% | 31% | $19,065.06 | $13,198.06 |

## Why do prediction market odds for an M8+ California earthquake significantly exceed the forecasts from scientific models like the USGS UCERF3?

Likelihood of M8+ earthquake (30 years) | 7% [[^]](https://www.conservation.ca.gov/cgs/Pages/Earthquakes/UCERF3.aspx)[[^]](https://www.auw.com/intelligence/article/new-science-technology-and-predictions-create-urgency-for-california-earthquake-coverage)[[^]](https://southern.scec.org/ucerf)[[^]](https://www.usgs.gov/news/state-news-release/new-long-term-earthquake-forecast-california) |
Previous likelihood (UCERF2) | 4.7% [[^]](https://www.conservation.ca.gov/cgs/Pages/Earthquakes/UCERF3.aspx)[[^]](https://www.auw.com/intelligence/article/new-science-technology-and-predictions-create-urgency-for-california-earthquake-coverage)[[^]](https://southern.scec.org/ucerf)[[^]](https://www.usgs.gov/news/state-news-release/new-long-term-earthquake-forecast-california) |
Near-term likelihood for M8+ earthquake | Low [[^]](https://www.sciencedaily.com/releases/2011/09/110928110018.htm)[[^]](https://central.scec.org/publication/765)[[^]](https://asteriskmag.com/issues/06/the-fault-in-our-forecasts) |

**Scientific models forecast a low probability for a major California earthquake**

Scientific models forecast a low **probability** for a major California earthquake. The UCERF3 **model** estimates a **7%** likelihood for an earthquake of at least magnitude 8.0 in California over a 30-year period [[^]](https://www.conservation.ca.gov/cgs/Pages/Earthquakes/UCERF3.aspx)[[^]](https://www.auw.com/intelligence/article/new-science-technology-and-predictions-create-urgency-for-california-earthquake-coverage)[[^]](https://southern.scec.org/ucerf)[[^]](https://www.usgs.gov/news/state-news-release/new-long-term-earthquake-forecast-california). This forecast represents an increase from the **4.7%** estimated by the previous UCERF2 **model**, a change attributed to the inclusion of possible multi-fault ruptures [[^]](https://www.conservation.ca.gov/cgs/Pages/Earthquakes/UCERF3.aspx)[[^]](https://www.auw.com/intelligence/article/new-science-technology-and-predictions-create-urgency-for-california-earthquake-coverage)[[^]](https://southern.scec.org/ucerf)[[^]](https://www.usgs.gov/news/state-news-release/new-long-term-earthquake-forecast-california).

Earthquake prediction remains an imperfect science, focusing on probabilities. These scientific models consistently indicate a low likelihood for such a major event in the near term [[^]](https://www.sciencedaily.com/releases/2011/09/110928110018.htm)[[^]](https://central.scec.org/publication/765)[[^]](https://asteriskmag.com/issues/06/the-fault-in-our-forecasts). They emphasize that earthquake prediction focuses on probabilistic forecasts rather than definitive predictions of individual main shocks [[^]](https://www.sciencedaily.com/releases/2011/09/110928110018.htm)[[^]](https://central.scec.org/publication/765)[[^]](https://asteriskmag.com/issues/06/the-fault-in-our-forecasts).

The provided information does not contain details explaining why prediction **market** odds for an M8+ California earthquake might significantly exceed these scientific forecasts.

## How does the M8+ earthquake risk posed to California by the Cascadia subduction zone compare to the risk from the San Andreas Fault system?

Cascadia M8.0-8.5 Recurrence | 220–240 years (southern segment) [[^]](https://pnsn.org/education/pnw-earthquakes/sources/cascadia) |
CA M>=8.0 by 2035 Probability | 2-3% (2026–2035) [[^]](https://en.wikipedia.org/wiki/UCERF3) |
Cascadia M8+ Decade Probability | Low [[^]](https://pnsn.org/education/pnw-earthquakes/sources/cascadia) |

**A major M8+ earthquake in California by 2035 is unlikely**

A major M8+ earthquake in California by 2035 is unlikely. Statewide probabilities from UCERF3 indicate a low likelihood for an M>=8.0 earthquake occurring anywhere in California by 2035. When scaled to approximately 9.75 years, the 30-year probabilities suggest a few percent chance, consistent with an extrapolated 2–**3%** **probability** for the 2026–2035 period [[^]](https://en.wikipedia.org/wiki/UCERF3). Both California-wide seismic modeling and **market** discussions generally classify an M>=8.0 event before 2035 as a low-**probability** tail event [[^]](https://pnsn.org/education/pnw-earthquakes/sources/cascadia)[[^]](https://en.wikipedia.org/wiki/UCERF3)[[^]](https://www.solflare.com/prediction/climate-and-weather/event/KXEARTHQUAKECALIFORNIA-35/).

Cascadia's M8+ earthquake risk to California by 2035 is low. The Cascadia subduction zone also presents a low decade-scale **probability** for an M8+ earthquake affecting California [[^]](https://pnsn.org/education/pnw-earthquakes/sources/cascadia). While the Cascadia zone is capable of generating M8+ earthquakes, partial-margin ruptures measuring M8.0–8.5 in its southern segment (southern Oregon/northern California) typically occur every 220–240 years on average [[^]](https://pnsn.org/education/pnw-earthquakes/sources/cascadia). This recurrence interval significantly reduces the likelihood of such an event within a decade-long timeframe, meaning Cascadia's potential for large earthquakes does not translate into a high **probability** within the 'California by 2035' horizon [[^]](https://pnsn.org/education/pnw-earthquakes/sources/cascadia). Currently, distinct risk estimates specifically for the San Andreas Fault system are unavailable, precluding a direct comparison with the Cascadia subduction zone's projected risk [[^]](https://pnsn.org/education/pnw-earthquakes/sources/cascadia).

## What specific seismic precursors would compel agencies like the USGS or Caltech to elevate the official M8+ earthquake probability before 2035?

USGS Prediction Stance | Has never predicted a major earthquake [[^]](https://www.usgs.gov/faqs/can-you-predict-earthquakes) |
CA M8+ 30-year likelihood (UCERF2) | 4.7% [[^]](https://www.usgs.gov/news/new-long-term-earthquake-forecast-california) |
CA M8+ 30-year likelihood (UCERF3) | 7.0% [[^]](https://www.usgs.gov/news/new-long-term-earthquake-forecast-california) |

**Agencies rely on models, not specific precursors, for M8+ probability updates**

Agencies rely on models, not specific precursors, for M8+ **probability** updates. Organizations such as the U.S. Geological Survey (USGS) and Caltech do not depend on a predefined list of specific seismic precursors to elevate the official M8+ earthquake **probability**. Instead, changes in these probabilities are primarily driven by updates to long-term forecasting models and probabilistic assessments. The USGS explicitly states it has never predicted a major earthquake, only calculating the **probability** of a significant earthquake occurring in a given area within a number of years, which precludes any guarantee-based precursor list as a deterministic trigger for M8+ **probability** increases [[^]](https://www.usgs.gov/faqs/can-you-predict-earthquakes). This approach is consistent with the NEPEC forewarning framework, which notes that forewarnings are often extraordinary events with limited historical precedent, reinforcing the absence of a single, reliable precursor checklist for elevating M8+ **probability** [[^]](https://pubs.usgs.gov/publication/ofr20151151).

Long-term M8+ probabilities primarily change due to **model** refinements. For the long-term likelihood of a magnitude 8 or larger earthquake in California, updates to forecasting models are more significant than real-time precursor signals. For instance, the estimated likelihood of California experiencing an M8+ earthquake in the next 30 years increased from approximately **4.7%** (UCERF2) to about **7.0%** (UCERF3) as a result of such **model** updates [[^]](https://www.usgs.gov/news/new-long-term-earthquake-forecast-california). Caltech's Southern California Earthquake Center (SCEC) materials also reinforce that M8+ **probability** changes are forecast updates rather than precursor-based confirmations, consistently describing earthquake probabilities and forecasts in probabilistic terms [[^]](https://scedc.caltech.edu/earthquake/probabilities.html). While the California Earthquake Advisory Plan does issue public advisories when recent seismic activity suggests an elevated **probability** of a larger earthquake in the same area during the next several days, this is based on a statistical finding that roughly **5%** of moderate earthquakes are followed by larger events, and is context- and evaluation-driven, not a fixed precursor threshold for M8+ events [[^]](https://www.usgs.gov/publications/california-earthquake-advisory-plan-a-history).

## What are the anticipated model changes and timeline for the upcoming UCERF4 forecast, and how might it revise California's M8+ probability from UCERF3?

UCERF3 M8+ Probability (30 years) | 7.0% [[^]](https://www.conservation.ca.gov/cgs/Pages/Earthquakes/UCERF3.aspx) |
UCERF4 Release Date | Not specified [[^]](https://southern.scec.org/research/projects/WGCEP/scec3.html) |
UCERF4 Methodology Focus | Physics-based simulators [[^]](https://southern.scec.org/research/projects/WGCEP/scec3.html) |

**The Working Group on California Earthquake Probabilities (WGCEP) is actively planning the Uniform California Earthquake Rupture Forecast, Version 4 (UCERF4), which is anticipated to incorporate physics-based simulators to a greater extent than previous versions [[^]](https://southern.scec.org/research/projects/WGCEP/scec3.html)**

The Working Group on California Earthquake Probabilities (WGCEP) is actively planning the Uniform California Earthquake Rupture Forecast, Version 4 (UCERF4), which is anticipated to incorporate physics-based simulators to a greater extent than previous versions [[^]](https://southern.scec.org/research/projects/WGCEP/scec3.html). However, current research does not specify a release date for UCERF4 or a timeline for when updated earthquake probabilities will be published [[^]](https://southern.scec.org/research/projects/WGCEP/scec3.html).

UCERF3 estimated the **probability** of a magnitude 8 or larger earthquake occurring in California to be approximately **7.0%** over the next 30 years [[^]](https://www.conservation.ca.gov/cgs/Pages/Earthquakes/UCERF3.aspx). While UCERF4 is expected to introduce methodological changes, the specific revised **probability** for such an event has not yet been detailed. To facilitate updates, WGCEP utilizes an adaptive, modular "living **model**" approach, implemented via OpenSHA [[^]](https://wgcep.org/**Model**-Framework.html). This design allows for relatively rapid modifications to forecasts, especially after major seismic events [[^]](https://wgcep.org/**Model**-Framework.html).

## How does the M8.0+ rupture potential before 2035 compare between the northern and southern sections of the San Andreas Fault?

Rupture potential M 7.7-8.0 (Southern San Andreas) | Higher on northern half compared to southern half [[^]](https://pubs.usgs.gov/publication/ofr20071437E) |
Statewide M>=8.0 probability (UCERF3) | Approximately 7.0% over the next 30 years [[^]](https://www.conservation.ca.gov/cgs/Pages/Earthquakes/UCERF3.aspx) |
Statewide M>=8.0 probability (UCERF2) | Approximately 4.7% over the next 30 years [[^]](https://www.conservation.ca.gov/cgs/Pages/Earthquakes/UCERF3.aspx) |

**The northern half of the southern San Andreas Fault exhibits higher rupture potential**

The northern half of the southern San Andreas Fault exhibits higher rupture potential. Specifically, this segment shows a greater likelihood for large earthquakes ranging from M 7.7 to 8.0 compared to its own southern half. USGS reports indicate that such significant events are common occurrences on the northern half of the southern San Andreas, whereas relatively few M 7.7–8.0 events are anticipated on its southern half [[^]](https://pubs.usgs.gov/publication/ofr20071437E).

However, a direct comparison of rupture potential between the broader northern and southern San Andreas Fault sections, specifically for M8.0+ events before 2035, is not readily available. The retrieved sources do not provide a comprehensive breakdown of statewide M>=8.0 earthquake probabilities in this manner, preventing a direct north versus south comparison [[^]](https://www.conservation.ca.gov/cgs/Pages/Earthquakes/UCERF3.aspx)[[^]](https://en.wikipedia.org/wiki/UCERF3)[[^]](https://kalshi.com/markets/kxearthquakecalifornia/earthquake-in-california/kxearthquakecalifornia-35).

Statewide M8.0+ earthquake probabilities are not section-specific for the San Andreas. The UCERF3 statewide timing summary estimates an approximately **7.0%** **probability** for an M>=8.0 earthquake over the next 30 years, an increase from UCERF2's approximately **4.7%** [[^]](https://www.conservation.ca.gov/cgs/Pages/Earthquakes/UCERF3.aspx). This **probability**, however, is not disaggregated by northern versus southern San Andreas sections, nor is it specifically focused on the 2026–2035 timeframe. Similarly, prediction markets for an M8.0+ earthquake before December 31, 2035, do not offer north-vs-south San Andreas conditional probabilities, instead generally characterizing the overall statewide likelihood as low and consistent with UCERF3 statewide probabilities [[^]](https://kalshi.com/markets/kxearthquakecalifornia/earthquake-in-california/kxearthquakecalifornia-35).

## What Could Change the Odds

**While predicting the exact timing of an earthquake is not currently possible [[^]](https://www.quora.com/Will-California-have-8-0-earthquake-in-10-years), scientific models provide probabilities for the occurrence of large magnitude earthquakes in California.** According to the Uniform California Earthquake Rupture Forecast, Version 3 (UCERF3), there is an estimated **7%** **probability** that California will experience an earthquake of magnitude 8.0 or greater within a 30-year period (from the time of the **model**'s release in 2013-2015, extending roughly to 2043-2045) [[^]](https://www.conservation.ca.gov/cgs/Pages/Earthquakes/UCERF3.aspx)[[^]](https://southern.scec.org/ucerf)[[^]](https://en.wikipedia.org/wiki/San_Andreas_Fault)[[^]](https://www.govtech.com/recovery/Risk-8-Earthquake-California-Leaps.html). This increased likelihood compared to previous models is attributed to the inclusion of potential multi-fault ruptures, where earthquakes can occur simultaneously across several faults [[^]](https://www.conservation.ca.gov/cgs/Pages/Earthquakes/UCERF3.aspx)[[^]](https://southern.scec.org/ucerf)[[^]](https://www.govtech.com/recovery/Risk-8-Earthquake-California-Leaps.html).

**The San Andreas Fault system is a major concern, as it is capable of producing earthquakes of magnitude 8 or greater [[^]](https://www.crmp.org/resources/blog/california-earthquake-probabilities).** Specifically, the southern segment of the San Andreas Fault is considered capable of an 8.1 magnitude earthquake and is identified as the most likely to host a large event [[^]](https://southern.scec.org/ucerf)[[^]](https://en.wikipedia.org/wiki/San_Andreas_Fault). The Cascadia Subduction Zone, located off the coast of Northern California, also has the potential for megaquakes [[^]](https://www.quora.com/Which-fault-off-of-California-can-produce-a-magnitude-earthquake-of-8-0). 9) [[^]](https://www.crmp.org/resources/blog/california-earthquake-probabilities)[[^]](https://en.wikipedia.org/wiki/San_Andreas_Fault)[[^]](https://www.cbsnews.com/losangeles/news/these-are-the-biggest-california-earthquakes-in-recorded-history/)[[^]](https://www.calfireprevention.org/earthquake-history/)[[^]](https://earthquakes.berkeley.edu/eqInfo/index_historic_quakes.html).

## Key Dates & Catalysts

- **Expiration:** January 07, 2036
- **Closes:** December 31, 2035

## Decision-Flipping Events

- While predicting the exact timing of an earthquake is not currently possible [^] , scientific models provide probabilities for the occurrence of large magnitude earthquakes in California.
- According to the Uniform California Earthquake Rupture Forecast, Version 3 (UCERF3), there is an estimated **7%** **probability** that California will experience an earthquake of magnitude 8.0 or greater within a 30-year period (from the time of the **model**'s release in 2013-2015, extending roughly to 2043-2045) [^] [^] [^] [^] .
- This increased likelihood compared to previous models is attributed to the inclusion of potential multi-fault ruptures, where earthquakes can occur simultaneously across several faults [^] [^] [^] .
- The San Andreas Fault system is a major concern, as it is capable of producing earthquakes of magnitude 8 or greater [^] .

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## Historical Resolutions

No historical resolution data available for this series.

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