Multi-trophic Interactions and Long-term Volunteer Collected Data: Networks of plant-caterpillar-parasitoid interactions across time, space, and a changing climate

The preservation of ecological complexity is an important goal for ecologists as communities respond to global change. Inherent to these efforts is the quantification and evaluation of the multiple dimensions of biodiversity, including well studied metrics of taxonomic, phylogenetic, and functional diversity. Studies on multi-trophic systems have primarily focused on taxonomic diversity, yet recent efforts have highlighted the importance of examining an underutilized biodiversity metric: interaction diversity, or the richness and abundance of the unique links connecting species. My dissertation research contributes to understanding spatial and temporal variation in the diversity of plant-caterpillar-parasitoid interactions. A central theme of my dissertation research is the use of long-term citizen science data from sites across the Americas to understand how interaction diversity changes across latitudinal, climate, disturbance, and seasonal gradients. My research in tropical forests documented the impacts of climate change. I found increases in extreme precipitation events caused reductions in interaction and species diversity with associated losses in an important ecosystem function: Biological control of herbivores by their natural enemies. In a temperate fire-adapted forest, I provided evidence for the scale-dependent nature of interaction diversity and its implications for how diversity is maintained in frequently disturbed systems. To understand spatial and temporal variation in interactions, I evaluated patterns in the beta-diversity of interactions and its components. Using this methodology, I found evidence of latitudinal patterns in the turnover of interactions, providing support that interactions are more variable in tropical than temperate regions. In the Brazilian Cerrado and Yucatan Peninsula, Mexico, I found seasonal variation in interaction diversity is primarily a consequence of seasonally constant species rewiring their interactions rather than seasonal differences in species composition. Finally, an important goal for ecology is to develop effective methods that increase the public's awareness and action toward biodiversity conservation. I fielded over 300 citizen scientists on research expeditions that contribute to the collection and rearing of these long-term data and administered surveys to understand the impact of different team models. Based on these surveys, multiple team models are effective for achieving diverse objectives and corporate teams are particularly valuable for sustainability partnerships. Together, this body of research provides evidence that interaction diversity uniquely contributes to broad patterns of biodiversity and ecosystem structure. Further, novel partnerships with various citizen science team models are an effective and efficient method to engage a diverse public audience interested in the preservation of biodiversity

New larval host records for Tortricidae (Lepidoptera) from an Ecuadorian Andean cloud forest

A biological inventory focused on plant-caterpillar-parasitoid associations at Yanayacu Biological Station, Ecuador, yielded 81 adult specimens of Tortricidae (Lepidoptera: Tortricoidea) representing 42 species in 13 genera. Based on this material, new host records are presented for species in the following genera: Lypothora Razowski, 1981; Inape Razowski, 1988; Orthocomotis Dognin, 1905; Paraptila Meyrick, 1912; Runtunia Razowski and Wojtusiak, 2008; Transtillaspis Razowski, 1987; Xoser Razowski and Pelz, 2003; Argyrotaenia Stephens, 1852; Anacrusis Zeller, 1877; Sisurcana Powell, 1986; Amorbia Clemens, 1860; Paramorbia Powell and Lambert, 1986; and Episimus Walsingham, 1892. Tortricids were reared from 46 plant species representing 24 plant families, with Piperaceae, Melastomataceae, and Asteraceae supporting the most tortricid herbivores (six species each). Un inventario biológico centrado en relaciones parasitoide-oruga-planta desarrollado en la Estación Biológica de Yanayacu, en Ecuador, dio lugar a 81 ejemplares adultos de Tortricidae (Lepidoptera: Tortricoidea) representativos de 13 géneros y 42 especies. Basándose en este material, se presentan nuevos registros de plantas huésped para especies de los siguientes géneros: Lypothora Razowski, 1981; Inape Razowski, 1988; Orthocomotis Dognin, 1905; Paraptila Meyrick, 1912; Runtunia Razowski y Wojtusiak, 2008; Transtillaspis Razowski, 1987; Xoser Razowski y Pelz, 2003; Argyrotaenia Stephens, 1852; Anacrusis Zeller, 1877; Sisurcana Powell, 1986; Amorbia Clemens, 1860; Paramorbia Powell y Lambert, 1986; y Episimus Walsingham, 1892. Los tortrícidos se criaron a partir de 46 especies de plantas representativas de 24 familias de plantas. Las familias Piperaceae, Melastomataceae y Asteraceae resultaron ser las que soportan la mayor parte de los tortrícidos (seis especies cada una)

New larval host records for Tortricidae (Lepidoptera) from an Ecuadorian Andean cloud forest

A biological inventory focused on plant-caterpillar-parasitoid associations at Yanayacu Biological Station, Ecuador, yielded 81 adult specimens of Tortricidae (Lepidoptera: Tortricoidea) representing 42 species in 13 genera. Based on this material, new host records are presented for species in the following genera: Lypothora Razowski, 1981; Inape Razowski, 1988; Orthocomotis Dognin, 1905; Paraptila Meyrick, 1912; Runtunia Razowski and Wojtusiak, 2008; Transtillaspis Razowski, 1987; Xoser Razowski and Pelz, 2003; Argyrotaenia Stephens, 1852; Anacrusis Zeller, 1877; Sisurcana Powell, 1986; Amorbia Clemens, 1860; Paramorbia Powell and Lambert, 1986; and Episimus Walsingham, 1892. Tortricids were reared from 46 plant species representing 24 plant families, with Piperaceae, Melastomataceae, and Asteraceae supporting the most tortricid herbivores (six species each). Un inventario biológico centrado en relaciones parasitoide-oruga-planta desarrollado en la Estación Biológica de Yanayacu, en Ecuador, dio lugar a 81 ejemplares adultos de Tortricidae (Lepidoptera: Tortricoidea) representativos de 13 géneros y 42 especies. Basándose en este material, se presentan nuevos registros de plantas huésped para especies de los siguientes géneros: Lypothora Razowski, 1981; Inape Razowski, 1988; Orthocomotis Dognin, 1905; Paraptila Meyrick, 1912; Runtunia Razowski y Wojtusiak, 2008; Transtillaspis Razowski, 1987; Xoser Razowski y Pelz, 2003; Argyrotaenia Stephens, 1852; Anacrusis Zeller, 1877; Sisurcana Powell, 1986; Amorbia Clemens, 1860; Paramorbia Powell y Lambert, 1986; y Episimus Walsingham, 1892. Los tortrícidos se criaron a partir de 46 especies de plantas representativas de 24 familias de plantas. Las familias Piperaceae, Melastomataceae y Asteraceae resultaron ser las que soportan la mayor parte de los tortrícidos (seis especies cada una)

Interaction Diversity Maintains Resiliency in a Frequently Disturbed Ecosystem

Frequently disturbed ecosystems are characterized by resilience to ecological disturbances. Longleaf pine ecosystems are not only resilient to frequent fire disturbance, but this feature sustains biodiversity. We examined how fire frequency maintains beta diversity of multi-trophic interactions in longleaf pine ecosystems, as this community property provides a measure of functional redundancy of an ecosystem. We found that beta interaction diversity at small local scales is highest in the most frequently burned stands, conferring immediate resiliency to disturbance by fire. Interactions become more specialized and less resilient as fire frequency decreases. Local scale patterns of interaction diversity contribute to broader scale patterns and confer long-term ecosystem resiliency. Such natural disturbances are likely to be important for maintaining regional diversity of interactions for a broad range of ecosystems

New larval host records for Tortricidae (Lepidoptera) from an Ecuadorian Andean cloud forest

A biological inventory focused on plant-caterpillar-parasitoid associations at Yanayacu Biological Station, Ecuador, yielded 81 adult specimens of Tortricidae (Lepidoptera: Tortricoidea) representing 42 species in 13 genera. Based on this material, new host records are presented for species in the following genera: Lypothora Razowski, 1981; Inape Razowski, 1988; Orthocomotis Dognin, 1905; Paraptila Meyrick, 1912; Runtunia Razowski and Wojtusiak, 2008; Transtillaspis Razowski, 1987; Xoser Razowski and Pelz, 2003; Argyrotaenia Stephens, 1852; Anacrusis Zeller, 1877; Sisurcana Powell, 1986; Amorbia Clemens, 1860; Paramorbia Powell and Lambert, 1986; and Episimus Walsingham, 1892. Tortricids were reared from 46 plant species representing 24 plant families, with Piperaceae, Melastomataceae, and Asteraceae supporting the most tortricid herbivores (six species each). Un inventario biológico centrado en relaciones parasitoide-oruga-planta desarrollado en la Estación Biológica de Yanayacu, en Ecuador, dio lugar a 81 ejemplares adultos de Tortricidae (Lepidoptera: Tortricoidea) representativos de 13 géneros y 42 especies. Basándose en este material, se presentan nuevos registros de plantas huésped para especies de los siguientes géneros: Lypothora Razowski, 1981; Inape Razowski, 1988; Orthocomotis Dognin, 1905; Paraptila Meyrick, 1912; Runtunia Razowski y Wojtusiak, 2008; Transtillaspis Razowski, 1987; Xoser Razowski y Pelz, 2003; Argyrotaenia Stephens, 1852; Anacrusis Zeller, 1877; Sisurcana Powell, 1986; Amorbia Clemens, 1860; Paramorbia Powell y Lambert, 1986; y Episimus Walsingham, 1892. Los tortrícidos se criaron a partir de 46 especies de plantas representativas de 24 familias de plantas. Las familias Piperaceae, Melastomataceae y Asteraceae resultaron ser las que soportan la mayor parte de los tortrícidos (seis especies cada una)

Changing interactions among persistent species as the major driver of seasonal turnover in plant-caterpillar interactions.

β diversity of herbivorous insects in the tropics is usually very high, and there is often strong dissimilarity in herbivore species composition across different spatial scales and different abiotic gradients. Similarly, turnover is high for trophic interactions between herbivorous insects and their host plants. Two factors have been proposed to explain temporal or spatial differences in trophic interactions: changes in species composition and temporal changes in the behavior of shared species. The goal of this study was to evaluate determinants of high β diversity of trophic interactions between lepidopteran caterpillars and their host plants across dry and rainy seasons and their transitions. Over the course of a year, interaction diversity data were collected from 275 temporary plots in Cerrado vegetation, comprising 257 species of caterpillars, 137 species of host plants and 503 different trophic interactions. All these diversity parameters varied across seasons. Species assemblages of caterpillars and plants were different among the four seasons, and there was a high turnover of interactions between the seasons. The high temporal β diversity of trophic interactions was mostly due to interaction rewiring between co-occurring species, as opposed to changes in species composition over time

Access to and Use of Health Services Among Undocumented Mexican Immigrants in a US Urban Area

Objectives. We assessed access to and use of health services among Mexican-born undocumented immigrants living in New York City in 2004

Plant size, latitude, and phylogeny explain within-population variability in herbivory

Interactions between plants and herbivores are central in most ecosystems, but their strength is highly variable. The amount of variability within a system is thought to influence most aspects of plant-herbivore biology, from ecological stability to plant defense evolution. Our understanding of what influences variability, however, is limited by sparse data. We collected standardized surveys of herbivory for 503 plant species at 790 sites across 116° of latitude. With these data, we show that within-population variability in herbivory increases with latitude, decreases with plant size, and is phylogenetically structured. Differences in the magnitude of variability are thus central to how plant-herbivore biology varies across macroscale gradients. We argue that increased focus on interaction variability will advance understanding of patterns of life on Earth

Coronal Heating as Determined by the Solar Flare Frequency Distribution Obtained by Aggregating Case Studies

Flare frequency distributions represent a key approach to addressing one of the largest problems in solar and stellar physics: determining the mechanism that counter-intuitively heats coronae to temperatures that are orders of magnitude hotter than the corresponding photospheres. It is widely accepted that the magnetic field is responsible for the heating, but there are two competing mechanisms that could explain it: nanoflares or Alfv\'en waves. To date, neither can be directly observed. Nanoflares are, by definition, extremely small, but their aggregate energy release could represent a substantial heating mechanism, presuming they are sufficiently abundant. One way to test this presumption is via the flare frequency distribution, which describes how often flares of various energies occur. If the slope of the power law fitting the flare frequency distribution is above a critical threshold, $\alpha=2$ as established in prior literature, then there should be a sufficient abundance of nanoflares to explain coronal heating. We performed $>$600 case studies of solar flares, made possible by an unprecedented number of data analysts via three semesters of an undergraduate physics laboratory course. This allowed us to include two crucial, but nontrivial, analysis methods: pre-flare baseline subtraction and computation of the flare energy, which requires determining flare start and stop times. We aggregated the results of these analyses into a statistical study to determine that $\alpha = 1.63 \pm 0.03$. This is below the critical threshold, suggesting that Alfv\'en waves are an important driver of coronal heating.Comment: 1,002 authors, 14 pages, 4 figures, 3 tables, published by The Astrophysical Journal on 2023-05-09, volume 948, page 7