SEEDS is proud to announce that our fall 2023 raking season is complete! Over several weeks in the fall, several SEEDS members participated in the all-important thatch removal process as part of our study on long-term restoration efforts on Bio 5C hill. Thank you to everyone who showed up and helped us rake! As we wait for the rainy season to do its thing, we look forward to seeing you all at the coding workshops in winter quarter :)
Despite all of the rainy days it was a beautiful spring field season for CHRRP! With this very wet season, we had unusually tall grasses and wildflowers and even some new plant species we didn't see last year.
SEEDS started off the 2022-2023 academic year raking our experimental site for CHRRP!
Thankfully, on most of our field days, the weather was great. We learned about the research questions for this project, the experimental design, and got to hang out in the outdoors with 3 new students participating in the project for the first time! While most plants are dormant or dead at this time of year, the perennial plant Phacelia ramosissima was still green.
During the winter quarter of 2022, SEEDS members completed the year's plant species composition on campus at the BIOL05C Hill field site. A few participating members gained field and/or plant identification experience for the first time through these sampling events.
In addition to collecting the season's plant data, posts and labels were installed to help better delineate each quadrat. This will optimize sampling as this project continues in the future.
Below are photos of plant species found during this season's sampling events.
See the poster SEEDS at UCR students submitted at the Ecological Society of America's Vital Connections in Ecology Conference in summer 2021!
SEEDS's undergraduate research project investigates the effect of litter removal on species composition in threatened coastal sage scrub.
The highly diverse coastal sage scrub (CSS) ecosystem, dominated by short-statured drought-deciduous shrubs and interspersed annuals can found throughout coastal California and into northern Baja California. Coastal sage scrub, which provides habitat for many endangered species, has experienced widespread decline as a result of urbanization, agricultural land use, air pollution, shifts in fire regimes, and conversion to exotic annual grassland. It is estimated that 70-90% of coastal sage scrub in California has been lost, making CSS one of the most threatened ecosystems in the United States.
Invasion by exotic annuals and the subsequent conversion to annual grassland has substantially reduced native biodiversity. To address this conservation challenge, an experiment was established in 2008 to test if thatch accumulation by exotic annuals reduces native species success. Biology undergraduates helped establish paired plots in degraded coastal sage scrub plant communities on the UCR campus. Total species richness, native species richness, and the dominance of the invasive grass Bromus diandrus were recorded annually over 7 years to investigate the effect of thatch removal on plant diversity in invaded coastal sage scrub ecosystems.
The UCR Strategies for Ecology Education, Diversity, and Sustainability (SEEDS) chapter renewed the litter removal experiment and are currently collecting baseline data on species composition. The experiment will be conducted for at least three years, with the goal to continue treatments indefinitely.
Analysis of preliminary data from UCR’s introductory biology courses indicates that the raking treatment significantly increased both native species richness and overall species richness. This data also shows that raking was effective in reducing the dominance of the invasive grass Bromus diandrus. Overall, these results suggest that litter removal has the potential to act as a simple, non-toxic method for increasing native plant biodiversity in degraded coastal sage scrub.
We anticipate that the renewed litter removal treatments will result in higher native species richness and abundance in raked plots compared to unraked plots. We expect that the results of this experiment will quantify the efficacy of litter removal as a strategy to manage exotic annual invasion. This research will inform management of coastal sage scrub, with implications for the conservation of endangered species through habitat restoration.
Anyone is welcome to join the project at any time! For more information about how to sign-up, please see the form below.