Posts Tagged ‘carbon’

Native forests on farms could store the most soil carbon

Thursday, August 8th, 2024

Postdoctoral Fellow Dr Alexa Byers

Greater biodiversity above ground is widely considered the key to healthy landscapes, but does this presumption hold up beneath our feet? Postdoctoral Fellow Dr Alexa-Kate Byers (Lincoln University) looked at the diversity of carbon-munching microbes beneath different land uses and what this could mean for carbon storage in the soil. 

Our soils act as vital reservoirs for carbon, but when soil microbes break down the organic matter around them, then respire, they release carbon to the atmosphere as a gas.  

To investigate the effect of different land uses on these microbes, Alexa and her team sampled the soil beneath five different land uses around Kaituna and Prices Valley in Canterbury. 

She says “We really wanted to measure how land use change altered the way in which soil microbes process soil carbon, as this has important implications for long-term soil carbon storage.” 

“Microbial ecology is still a relatively new field compared to plant ecology. A lot of the presumptions we make about microbial diversity are based on patterns in the research we’ve done above ground . . . but one of the things I found in this study is that’s not always the case.” 

After testing soil below remnant native forest, regenerating native bush, exotic plantation forest, dryland pasture and irrigated pasture, Alexa discovered the diversity of carbon-munching microbes increased proportionally with the disturbance of the land above ground. That means agricultural land uses were associated a greater range of microbial genes. 

This isn’t a ‘bad thing’ per se, but it does mean that these soils could store less carbon than those under regenerating or mature native forest. 

Alexa says “Agricultural land uses have a huge productive value and are important for food production; this research isn’t about assigning land uses into good or bad categories. But it’s important to be aware of the potential consequences of human activity on the soil”.   

“Incorporating more different types of land uses into the same area could allow agriculture and store carbon in the soil at the same time. This would also be beneficial for other values we might have, like cultural or above-ground biodiversity.”  

While her sample sites were restricted to Canterbury, Alexa is confident that the results are relevant to land managers throughout the country. 

 

More Information

Read the full, published paper here > Land use intensity is a major driver of soil microbial and carbon cycling across an agricultural landscape

Dive into the details of Alexa’s research on soil carbon here >  Enhancing the resilience of soil carbon across agricultural landscapes

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How do human disturbances impact soil microbes?

Tuesday, November 29th, 2022

Research team scoping Great Barrier Island. From left, Maui Duley, Alexa Byers, Prof. Amanda Black, and Dr. Nick Waipara

Soil microbes are central to life on Earth. They recycle nutrients, regulate water quality, support plant productivity, and sequester carbon. However, the microbes in soil change in response to disturbances, affecting the way they behave and in turn the many systems that rely on them.

Alexa Byers, a postdoctoral researcher at Bioprotection Aotearoa, is investigating the soil health of natural and productive ecosystems to understand the response of soil microbes to threats such as pathogen invasion, human disturbance and climate change.

Alexa is involved in two projects at Bioprotection Aotearoa. The first project on kauri dieback disease (Phytophthora agathidicida) involves screening kauri forest soils for the production of bio-active compounds that have the potential to suppress kauri dieback. This project has involved a large amount of fieldwork on the North Island, including trips to the remote Great Barrier Island, Northland and Auckland.

The work is critical, in part, because kauri forests are so important to Māori communities. Alexa and her supervisor, Professor Amanda Black (Tuhoe, Whakatōhea, Te Whānau ā Apanui), have done a lot of engagement work with multiple iwi in Northland to explain the research and involve them.

Alexa says, “It’s important to just be open about what we’re doing, asking them questions about how we can help and listening to their contributions.”

This engagement has taken time. Alexa says, “Science sometimes moves at a fast pace and when you engage with communities you can’t rush things. You need to give people time to think. That has been a learning curve, that it’s not fair on them to be rushed.”

But Alexa says, “It is definitely worth it. You want your research to mean something more than just publishing papers. If you know you’re finding ways to benefit communities, that’s very rewarding.”

For the second project, Alexa is studying how land-use change is impacting soil microbial function and soil carbon cycling. She is taking soil from each land-use type and inducing drought to see how the microbes respond. The results will show how land-use change impacts microbes’ ability to cope with climate change. This project is focused on productive landscapes such as pasture in Banks Peninsula, Canterbury.

Alexa is enjoying meeting the different communities, working in beautiful parts of New Zealand, and interacting with other Early Career Researchers in Bioprotection Aotearoa. She says, “Bioprotection Aotearoa is really good because of their focus on early career scientists. There are lots of us and we have regular meetings and chances to get together and talk about our research. A lot of time is invested in us.”

More Information

Dive into the details of Alexa’s research here > Enhancing resilience of soil carbon across agricultural landscapes

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