Theo Gibbs
@theogibbs.bsky.social
Schmidt Science Fellow and Postdoctoral Researcher at NYU. PhD from Princeton.
I’m interested in species coexistence, higher-order interactions, theoretical ecology and the plant microbiome.
https://theogibbs.github.io
I’m interested in species coexistence, higher-order interactions, theoretical ecology and the plant microbiome.
https://theogibbs.github.io
On a more personal note, this was the last chapter of my PhD and also my first real experiment. I learned so much from collaborating with everyone at Princeton, UCLA and Sedgwick Reserve in CA.
July 21, 2025 at 1:51 PM
On a more personal note, this was the last chapter of my PhD and also my first real experiment. I learned so much from collaborating with everyone at Princeton, UCLA and Sedgwick Reserve in CA.
For more detail, check out the preprint: www.biorxiv.org/content/10.1...
Or check out @zachgold.bsky.social's upcoming ESA talk if you will be in Baltimore: events.rdmobile.com/Sessions/Det...
Or check out @zachgold.bsky.social's upcoming ESA talk if you will be in Baltimore: events.rdmobile.com/Sessions/Det...
Spatial clustering reveals the impact of higher-order interactions in a diverse annual plant community
Spatial patterns are widespread in ecology, but their effects on species interactions remain unresolved, especially in diverse communities. In principle, the degree of spatial clustering could alter t...
www.biorxiv.org
July 21, 2025 at 1:51 PM
For more detail, check out the preprint: www.biorxiv.org/content/10.1...
Or check out @zachgold.bsky.social's upcoming ESA talk if you will be in Baltimore: events.rdmobile.com/Sessions/Det...
Or check out @zachgold.bsky.social's upcoming ESA talk if you will be in Baltimore: events.rdmobile.com/Sessions/Det...
Overall, our results suggest that higher-order interactions can come about from the combination of spatial clustering and a competitive hierarchy. Because these two properties are prevalent in natural plant communities, higher-order interactions may be more common than previously thought.
July 21, 2025 at 1:51 PM
Overall, our results suggest that higher-order interactions can come about from the combination of spatial clustering and a competitive hierarchy. Because these two properties are prevalent in natural plant communities, higher-order interactions may be more common than previously thought.
We hypothesized that a competitive hierarchy might underlie these changes in fecundity. To test this, we came up with a metric that quantifies the difference in competitive effect for each background species. Background species that are more imbalanced produce larger higher-order interactions.
July 21, 2025 at 1:51 PM
We hypothesized that a competitive hierarchy might underlie these changes in fecundity. To test this, we came up with a metric that quantifies the difference in competitive effect for each background species. Background species that are more imbalanced produce larger higher-order interactions.
These observed higher-order interactions are correlated with changes in the traits of background competitors due to their spatial arrangement, suggesting a possible mechanistic underpinning for the shifts in interaction strength.
July 21, 2025 at 1:51 PM
These observed higher-order interactions are correlated with changes in the traits of background competitors due to their spatial arrangement, suggesting a possible mechanistic underpinning for the shifts in interaction strength.
Differences in the fecundity of focal individuals therefore reveal the relative strength of intra to interspecific higher-order interactions.
Focal species fecundity changes as a result of the arrangement of competitors... in other words, we have found higher-order interactions!
Focal species fecundity changes as a result of the arrangement of competitors... in other words, we have found higher-order interactions!
July 21, 2025 at 1:51 PM
Differences in the fecundity of focal individuals therefore reveal the relative strength of intra to interspecific higher-order interactions.
Focal species fecundity changes as a result of the arrangement of competitors... in other words, we have found higher-order interactions!
Focal species fecundity changes as a result of the arrangement of competitors... in other words, we have found higher-order interactions!
In our experiment, we manipulated the spatial arrangement -- but not the number or identity -- of background species competing with focal individuals (see figure above). When competitors are clustered, they cannot engage in as many interspecific higher-order interactions as when they are mixed.
July 21, 2025 at 1:51 PM
In our experiment, we manipulated the spatial arrangement -- but not the number or identity -- of background species competing with focal individuals (see figure above). When competitors are clustered, they cannot engage in as many interspecific higher-order interactions as when they are mixed.
