Team finds that rock weathering boosts soil organic carbon storage

Team finds that rock weathering boosts soil organic carbon storage


A colorful example of a rock that is partly weathered—in this case, a volcanoclastic rock from Puerto Rico that is being transformed into clays and iron oxides from the outside in. Credit: Eric Slessarev / LLNL

Rock weathering controls the potential for soil carbon storage at a continental scale.


New research from Lawrence Livermore National Laboratory (LLNL) and collaborators found that rock weathering—the process of chemical transformation by long exposure to water and the atmosphere—boosts soil organic carbon storage by altering soil mineralogy. The research appears in the journal Biogeochemistry Letters.

As rock-derived primary minerals weather to form soil, they create reactive, poorly crystalline minerals that bind and store organic carbon. By implication, the abundance of primary minerals in soil might influence the abundance of poorly crystalline minerals, and consequently soil organic carbon storage.

“We found that the link between primary , poorly crystalline minerals and soil carbon has not been fully tested, particularly at large spatial scales,” said LLNL scientist and co-lead author Eric Slessarev. “To close this knowledge gap, we designed a model that links primary mineral weathering rates to the geographic distribution of poorly crystalline minerals across the U.S., and then used this model to evaluate the effect of rock weathering on soil organic carbon.”

The team found that poorly crystalline minerals are most abundant and strongly correlated with organic carbon in geographically limited zones that experience enhanced weathering rates, particularly where humid climate and plenty of primary minerals co-occur. This finding confirms that rock weathering alters soil mineralogy to enhance soil organic carbon storage at continental scales, but also indicates that the influence of active weathering on is limited.

Most of the terrestrial biosphere’s carbon is stored below ground as soil organic carbon (SOC). Small changes in the relative size of the global SOC pool can influence atmospheric CO2 levels, and hence global climate. But in most soils, a significant fraction of SOC is associated with minerals that limit its rate of exchange with the atmosphere.

The team identified a quantitative relationship between primary mineral weathering rates and stocks of poorly crystalline minerals (PCM) that accounts for both climate and the availability of readily weathered minerals. Team members also tested the role of primary mineral weathering contributing to carbon storage at continental scales.

Primary mineral weathering rates, PCM stocks and carbon storage are linked because poorly crystalline minerals are relatively transient weathering products. Studies of soil age gradients show that these minerals accumulate during the initial stages of weathering but later decline as the stock of primary minerals is exhausted and PCMs ripen into less reactive crystalline secondary minerals. Across rock types, these minerals are most abundant in soils formed from volcanic parent materials rich in feldspars and glass with feldspar-like composition and in humid climates, where ample water facilitates higher weathering rates.

“Taken together, these facts indicate that the primary mineral weathering rate is a key factor that determines the abundance of PCMs,” said LLNL scientist and co-author Jennifer Pett-Ridge. “PCMs disappear over time as they ripen into more crystalline minerals; so additional active weathering is required to maintain soil PCMs and lead to the conditions needed for heightened carbon storage.”

LLNL researchers Noah Sokol and Erin Nuccio also contributed to the research.


Getting to the root of carbon storage in deep soils


More information:
Eric W. Slessarev et al, Rock weathering controls the potential for soil carbon storage at a continental scale, Biogeochemistry Letters (2021). DOI: 10.1007/s10533-021-00859-8

Citation:
Team finds that rock weathering boosts soil organic carbon storage (2021, November 15)
retrieved 15 November 2021
from https://phys.org/news/2021-11-team-weathering-boosts-soil-carbon.html

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