Your search keyword '"Luke P. Miller"' showing total 45 results

1. Wave, light, and dissolved oxygen exposures drive novel coastal eelgrass (Zostera pacifica) transplant performance

Author

Rilee D. Sanders, Adam K. Obaza, Benjamin C. Grime, Mathilde Lindhart, Luke P. Miller, Kristen E. Elsmore, Olivia C. Carmack, Tom K. Ford, and James J. Leichter

Subjects

eelgrass, transplant, Zostera pacifica, PAR, DO, wave, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

The high ecological and economic value of seagrass has been long recognized, with these foundational habitats providing myriad ecosystem services. Yet through cumulative anthropogenic impacts, seagrasses are exhibiting extensive declines globally. A litany of studies and active restoration trials have demonstrated practical methodologies to restore seagrass habitats and effectively return critical habitat functions to degraded coastal zone systems worldwide. Seagrass loss along the U.S. West Coast has precipitated decades of seagrass protection, conservation, and restoration efforts. Yet, mitigation transplanting efforts have prioritized Zostera marina (narrow-leaved eelgrass) in shallow, protected environments, while a dearth of information is available on species inhabiting offshore islands and exposed mainland coasts. In this study, we conducted a novel transplant of Zostera pacifica, a wide-leaved species found in depths of 7 – 20 m along the offshore islands and mainland coast of California. Transplants were conducted at three geographically distinct sites in Santa Monica Bay, coupled with continuous monitoring of biophysical parameters providing insight into physical drivers at transplant and donor sites. Utilizing in situ data, and environmental thresholds adapted from the literature for Z. marina, we performed exposure analyses to evaluate factors influencing Z. pacifica transplant performance. Exceedances of threshold values for environmental parameters, specifically, wave exposure and near-bed flow speeds (Hrms > 0.59 m and Urms > 0.1 m s-1), photosynthetically active radiation (< 3 and > 5 mol m-2 day-1) and dissolved oxygen (< 3 mg O2 L-1) exposure impacted transplant survivorship. These results suggest Z. pacifica persist in biophysically dynamic conditions and are sensitive to exceedances of thresholds, underlining the importance of pre-transplant site-selection processes to this species. These data represent the first holistic study of Z. pacifica transplanting on an exposed mainland coast, which provides a view into the baseline environmental envelopes within existing Z. pacifica habitat, and further, may serve as a model for investigating scalable open coast seagrass restoration for temperate regions.

Published

2024

2. Accounting for variation in temperature and oxygen availability when quantifying marine ecosystem metabolism

Author

Matthew E. S. Bracken, Luke P. Miller, Sarah E. Mastroni, Stephany M. Lira, and Cascade J. B. Sorte

Subjects

Medicine, Science

Abstract

Abstract It is critical to understand how human modifications of Earth’s ecosystems are influencing ecosystem functioning, including net and gross community production (NCP and GCP, respectively) and community respiration (CR). These responses are often estimated by measuring oxygen production in the light (NCP) and consumption in the dark (CR), which can then be combined to estimate GCP. However, the method used to create “dark” conditions—either experimental darkening during the day or taking measurements at night—could result in different estimates of respiration and production, potentially affecting our ability to make integrative predictions. We tested this possibility by measuring oxygen concentrations under daytime ambient light conditions, in darkened tide pools during the day, and during nighttime low tides. We made measurements every 1–3 months over one year in southeastern Alaska. Daytime respiration rates were substantially higher than those measured at night, associated with higher temperature and oxygen levels during the day and leading to major differences in estimates of GCP calculated using daytime versus nighttime measurements. Our results highlight the potential importance of measuring respiration rates during both day and night to account for effects of temperature and oxygen—especially in shallow-water, constrained systems—with implications for understanding the impacts of global change on ecosystem metabolism.

Published

2022

3. Measuring Text-Focused Reading Instruction

Author

Julie Cohen, Luke C. Miller, Rosalie Chung, Emily Wiseman, and Erik Ruzek

Abstract

Helping students engage with complex texts has been a longstanding challenge, though teachers have received little guidance about practices that help students in engaging with texts. This paper provides a range of empirical evidence about a tool designed to provide formative insight into text-focused teaching, which we used to reliably score more than 500 reading lessons in a large district. We describe the structure of the tool, its relationship to other measures of teaching, teacher and school attributes, and student outcomes. We then provide guidance to practitioners and researchers seeking to employ such a tool for teacher development.

Published

2024

4. Latent Classes of Teacher Working Conditions in Virginia: Description, Teacher Preferences, and Contextual Factors. EdWorkingPaper No. 23-890

Author

Annenberg Institute for School Reform at Brown University, Luke C. Miller, James Soland, Daniel Lipscomb, Daniel W. Player, and Rachel S. White

Abstract

Many dimensions of teacher working conditions influence both teacher and student outcomes; yet, analyses of schools' overall working conditions are challenged by high correlations among the dimensions. Our study overcame this challenge by applying latent profile analysis of Virginia teachers' perceptions of school leadership, instructional agency, professional growth opportunities, rigorous instruction, managing student behavior, family engagement, physical environment, and safety. We identified four classes of schools: Supportive (61%), Unsupportive (7%), Unstructured (22%), and Structured (11%). The patterns of these classes suggest schools may face tradeoffs between factors such as more teacher autonomy for less instructional rigor or discipline. Teacher satisfaction and their stated retention intentions were correlated with their school's working conditions classes, and school contextual factors predicted class membership. By identifying formerly unseen profiles of teacher working conditions and considering the implications of being a teacher in each, decisionmakers can provide schools with targeted supports and investments.

Published

2023

5. Partisanship, Race, Markets, and Public Health: The Politics of Pandemic School Operations for Reopening and Beyond. EdWorkingPaper No. 23-837

Author

Annenberg Institute for School Reform at Brown University, Beth E. Schueler, Luke C. Miller, and Amy Reynolds

Abstract

Partisanship influenced learning modality after the pandemic's onset, but it is unknown whether partisanship predicted other aspects of educational operations. We study the role of partisanship, race, markets, and public health in predicting a range of operations--from modality to family engagement to social-emotional support to teacher PD--throughout 2020-21 in the context of Virginia. Districts' partisan makeup and racial composition were similarly predictive of in-person offerings throughout 2020-21 but partisanship was less predictive over time. District characteristics explained limited variation in other aspects of operations, though districts with larger private school sectors provided more supports. Results emphasize the role of partisanship, race, and markets in reopening but also suggest school operational decisions were less politicized than choice of modality.

Published

2023

6. Global threats from invasive alien species in the twenty-first century and national response capacities

Author

Regan Early, Bethany A. Bradley, Jeffrey S. Dukes, Joshua J. Lawler, Julian D. Olden, Dana M. Blumenthal, Patrick Gonzalez, Edwin D. Grosholz, Ines Ibañez, Luke P. Miller, Cascade J. B. Sorte, and Andrew J. Tatem

Subjects

Science

Abstract

Globalization facilitates the spread of invasive alien species, while environmental change can ease invasion. Here, Early et al. identify vulnerable regions globally and evaluate capacity in vulnerable countries to prevent invasions arising from sources such as air travel, horticulture, and pet trade.

Published

2016

7. Trends in Public School Teacher Licensure in Virginia, 2011 to 2021. COVID-19 Impacts Research Brief Series No. 6

Author

University of Virginia, EdPolicyWorks (EPW), Virginia Department of Education (VDOE), and Luke C. Miller

Abstract

School districts consider many qualifications when deciding whether to hire an individual to teach its students. One qualification is the type of license the applicant holds. The strictness of the eligibility requirements vary across the license types (e.g., level of educational attainment, whether a student teaching experience was completed). Teachers' license types, therefore, are a signal about the supply of teachers to school districts (called "divisions" in Virginia). License type may also be a contributor to divisions' demand for teachers should teachers with specific license types turn over more frequently. The COVID-19 pandemic and its aftereffects presented divisions with new challenges as they worked to hire teachers. In partnership with the Virginia Department of Education, we analyzed statewide administrative data on teachers between the 2011-12 and 2021-22 school years to identify trends in teacher licensure and determine whether those trends have changed since the onset of the COVID-19 pandemic. We did not find evidence of meaningful post-pandemic shifts in the licenses teachers hold; rather, we saw a continuation of pre-pandemic trends. Over the full period analyzed, the statewide composition of teacher licenses changed markedly. The percentage of teachers statewide with a Collegiate Professional license decreased while the percentage of teachers with Postgraduate Professional and Provisional licenses increased. The number of new licenses issued each year declined such that there were 3,085 fewer license issued in 2021 than in 2011 (a 23% reduction). The most common license among first-year teachers between Fall 2015 and Fall 2020 was the Provisional license. Most Black teachers enter the teaching profession with a Provisional license, as do most male Hispanic teachers. White teachers were the least likely to enter with a Provisional license. Annual retention rates were similar between teachers who started their careers with a Postgraduate Professional or Provisional license; however, teachers with an initial Provisional license were more likely to depart while teachers with an initial Postgraduate Professional license were more likely to shift into administrative positions. [This report was written with Veronica Katz.]

Published

2024

8. Virginia School Division Operations during SY 2020-21: Use of Remote Instruction. SY 2020-21 School Divisions' Operations Research Brief Series No. 2

Author

University of Virginia, EdPolicyWorks (EPW), Virginia Department of Education (VDOE), Elizabeth Padhi, and Luke C. Miller

Abstract

The pandemic forced divisions to develop new approaches to educating students. Division officials had to consider the needs of their students and their resources at home, as well as the capacity of their workforce and existing infrastructure to provide instruction outside of the school building. We collected and coded over a thousand documents pertaining to the SY 2020-21 operations of Virginia's 132 school divisions. We coded documents for information on divisions' approaches to how students would access curriculum if they were not in the school building, how teachers would provide instruction, and whether teachers would be responsible for teaching students both in-person and online. Our descriptive analyses explore how divisions responded to the COVID-19 pandemic through their planned use of remote instruction overall and by division-level characteristics. Most divisions provided online curriculum to their students with fewer divisions providing electronic or physical curriculum. Communities in which fewer than 90% of residences connected to broadband internet infrastructure were 2-3 times more likely to provide electronic curriculum. Rural and town divisions were much more likely to provide electronic curriculum compared to suburb and city divisions. About two-thirds of divisions provided both synchronous and asynchronous instruction to their students. Very few provided fully synchronous instruction. About half of Virginia's school divisions indicated that teachers would be providing instruction to both in-person and online students, but only about one-fifth indicated that this would be occurring concurrently. During such an unprecedented school year, it is important that we identify the heterogenous responses of school divisions across the state.

Published

2022

9. Post-Pandemic Onset Public School Student Mobility by Disability and Special Education Status in Virginia. COVID-19 Impacts Research Brief Series No. 5

Author

University of Virginia, EdPolicyWorks (EPW), Virginia Department of Education (VDOE), Beth E. Schueler, and Luke C. Miller

Abstract

The COVID-19 pandemic affected families' decisions about whether and where to enroll their children in public schools. We have limited evidence to date, however, on how vulnerable sub-groups, such as those with disabilities and those qualifying for special education services, were impacted. In partnership with the Virginia Department of Education (VDOE), we analyzed statewide administrative data that allow us to track individual students over time to learn how student non-structural mobility--both between schools and between districts (called "divisions" in Virginia)--may have changed in the aftermath of the pandemic's onset. We examine these changes for three groups of students: students without disabilities, students with disabilities not receiving special education services, and students with disabilities receiving services. We found that mobility among all three groups of Virginia students declined in the first full year after the pandemic's onset (fall 2020), but students with disabilities experienced larger declines than students without disabilities. In the second full year of the pandemic (fall 2021), the mobility patterns of the three groups of students diverged somewhat. While between-division mobility in 2021 was higher than in 2019 for all three groups, between-school mobility was still somewhat lower for students with disabilities (regardless of service receipt) but higher for students without disabilities. The lowest-achieving students exhibited the largest declines (or smallest increases) in mobility in 2020 and 2021 while the highest-achieving students experienced the smallest declines (or largest increases), regardless of disability or special education status. Understanding these patterns could have important implications for the efforts to support students with disabilities going forward, particularly since previous research has suggested that transferring schools tends to negatively impact learning outcomes. It also likely has implications for education funding given the connection between student enrollment, disability status, and school finance, especially if any changes are sustained.

Published

2023

10. A tide prediction and tide height control system for laboratory mesocosms

Author

Luke P. Miller and Jeremy D. Long

Subjects

Intertidal, Estuary, Shore height, Mesocosm, Spartina foliosa, Medicine, Biology (General), QH301-705.5

Abstract

Experimental mesocosm studies of rocky shore and estuarine intertidal systems may benefit from the application of natural tide cycles to better replicate variation in immersion time, water depth, and attendant fluctuations in abiotic and edaphic conditions. Here we describe a stand-alone microcontroller tide prediction open-source software program, coupled with a mechanical tidal elevation control system, which allows continuous adjustment of aquarium water depths in synchrony with local tide cycles. We used this system to monitor the growth of Spartina foliosa marsh cordgrass and scale insect herbivores at three simulated shore elevations in laboratory mesocosms. Plant growth decreased with increasing shore elevation, while scale insect population growth on the plants was not strongly affected by immersion time. This system shows promise for a range of laboratory mesocosm studies where natural tide cycling could impact organism performance or behavior, while the tide prediction system could additionally be utilized in field experiments where treatments need to be applied at certain stages of the tide cycle.

Published

2015

11. Post-Pandemic Onset Public School Teacher Retention and Mobility in Virginia. COVID-19 Impacts Research Brief Series No. 4

Author

University of Virginia, EdPolicyWorks (EPW), Virginia Department of Education (VDOE), Veronica Katz, and Luke C. Miller

Abstract

One feared consequence of how the COVID-19 pandemic disrupted public education is its potential negative impacts on teacher retention and mobility. Each spring, teachers decide whether and where to teach the following school year. Following the abrupt end to the 2019-20 school year in March 2020, there were increased concerns that teachers would choose to stop teaching. If they did return to the classroom, the concern was that they would transfer to another school. This was due in part to the stresses of reopening the following year and adjusting to the newly mandated COVID-19 protocols and remote instruction. In partnership with the Virginia Department of Education (VDOE), we examined this issue in the Commonwealth by describing how teacher retention and mobility changed after the onset of the pandemic. We found that teacher same-school retention rates increased following the closure of all schools in March 2020, but then dropped the reopening year (SY 2020-21) to the lowest rate observed. The Spring 2021 decrease in teacher retention was due to a substantial increase in teacher departures and a moderate increase in teacher transfers. The increases in the departure rate was most pronounced among Black teachers (male and female) and Hispanic female teachers. The Spring 2021 departure rates were the highest observed for all groups of schools defined by their concentrations of economically disadvantaged and non-White students. Tracking these trends will inform ongoing efforts to recruit and retain effective teachers for every Virginia classroom.

Published

2023

12. Post-Pandemic Onset Public School Enrollment and Mobility: Evidence from Virginia

Author

Beth E. Schueler and Luke C. Miller

Abstract

Public school enrollment dramatically decreased during the pandemic, but the patterns of decline and student movement across schools are not yet well understood. Using statewide student-level data from Virginia, we find pre-K-12 enrollment dropped by 4% between fall 2019 and the first post-pandemic fall of 2020. The changes were the largest in pre-kindergarten and kindergarten and explained mostly by decreases in new enrollees, though exits also increased. K-12 enrollment declines were the largest among White and economically-advantaged students (but largest for Black and economically-disadvantaged pre-kindergartners). We also observe a decline in school transfers (both within and between districts), concentrated among Black and economically-disadvantaged students and students with disabilities. Findings have implications for equity, school funding, and student well-being. [This is the online version of an article published in "Educational Evaluation and Policy Analysis."]

Published

2023

13. Author Correction: Simulated proximity enhances perceptual and physiological responses to emotional facial expressions

Author

Olena V. Bogdanova, Volodymyr B. Bogdanov, Luke E. Miller, and Fadila Hadj‑Bouziane

Subjects

Medicine, Science

Published

2022

14. Detection of Damage-Activated Metacaspase Activity by Western Blot in Plants

Author

Simon Stael, Luke P. Miller, Álvaro D. Fernández-Fernández, and Frank Van Breusegem

Published

2022

15. Action verbs are processed differently in metaphorical and literal sentences depending on the semantic match of visual primes

Author

Melissa eTroyer, Lauren B. Curley, Luke Edward Miller, Ayse Pinar Saygin, and Benjamin eBergen

Subjects

Biological motion, priming, sentence processing, metaphor, verbal semantics, self-paced reading, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Language comprehension requires rapid and flexible access to information stored in long-term memory, likely influenced by activation of rich world knowledge and by brain systems that support the processing of sensorimotor content. We hypothesized that while literal language about biological motion might rely on neurocognitive representations of biological motion specific to the details of the actions described, metaphors rely on more generic representations of motion. In a priming and self-paced reading paradigm, participants saw video clips or images of (a) an intact point-light walker or (b) a scrambled control and read sentences containing literal or metaphoric uses of biological motion verbs either closely or distantly related to the depicted action (walking). We predicted that reading times for literal and metaphorical sentences would show differential sensitivity to the match between the verb and the visual prime. In Experiment 1, we observed interactions between the prime type (walker or scrambled video) and the verb type (close or distant match) for both literal and metaphorical sentences, but with strikingly different patterns. We found no difference in the verb region of literal sentences for Close-Match verbs after walker or scrambled motion primes, but Distant-Match verbs were read more quickly following walker primes. For metaphorical sentences, the results were roughly reversed, with Distant-Match verbs being read more slowly following a walker compared to scrambled motion. In Experiment 2, we observed a similar pattern following still image primes, though critical interactions emerged later in the sentence. We interpret these findings as evidence for shared recruitment of cognitive and neural mechanisms for processing visual and verbal biological motion information. Metaphoric language using biological motion verbs may recruit neurocognitive mechanisms similar to those used in processing literal language but be represented in a less-specific way.

Published

2014

16. Dynamic measurements of black oystercatcher ( Haematopus bachmani ) predation on mussels ( Mytilus californianus )

Author

Luke P. Miller and William Wesley Dowd

Subjects

0106 biological sciences, Fishery, biology, 010604 marine biology & hydrobiology, Oystercatcher, Intertidal zone, Animal Science and Zoology, Mussel, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Mytilus, Predation

Abstract

Intertidal zone mussels can face threats from a variety of predatory species during high and low tides, and they must balance the threat of predation against other needs such as feeding and aerobic respiration. Black oystercatchers (Haematopus bachmani) on the Pacific coast of North America can depend on the mussel Mytilus californianus for a substantial portion of their diet. Observations suggest that oystercatchers tend to focus on mussels beginning to gape their valves during rising tides, following periods of aerial emersion. We present detailed, autonomous field measurements of the dynamics of three such predation events in the rocky intertidal zone. We measured accelerations of up to 4 g imposed on mussels, with handling times of 115–290 s required to open the shell and remove the majority of tissue. In each case a single oystercatcher attacked a mussel that had gaped the shell valves slightly wider than its neighbors as the rising tide began to splash the mussel bed, but no other obvious characteristic of the mussels, such as body temperature or orientation, could be linked to the oystercatcher's individual prey choice.

Published

2019

17. Historical comparisons of body size are sensitive to data availability and ecological context

Author

Luke P. Miller, Robin Elahi, and Steven Y. Litvin

Subjects

Population Density, 0106 biological sciences, education.field_of_study, biology, Ecology, 010604 marine biology & hydrobiology, Gastropoda, Population, Sampling (statistics), Climate change, Context (language use), biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Lottia digitalis, Geography, Tegula funebralis, Ectotherm, Sampling design, Animals, Body Size, education, Ecology, Evolution, Behavior and Systematics

Abstract

Historical comparisons of body size often lack pertinent details, including information on the sampling protocol and relevant ecological covariates that influence body size. Moreover, historical estimates of body size that rely on museum specimens may be biased towards larger size classes because of collector preferences, and thus size thresholds have been used to focus attention on maximum body size. We tested the consequences of sampling design, ecological covariates, and size thresholds on inferences of body-size change using field-contextualized historical records, rather than museum specimens. In 2014-2015, we revisited historical (1947-1963) size-frequency distributions of three gastropods (Tegula funebralis, Lottia digitalis/L. austrodigitalis, Littorina keenae) in the context of population density and tidal height. In general, gastropods declined in size. However, our inferences regarding body-size decline were tempered when the variation between sampling units was taken into consideration, resulting in greater uncertainty around the estimate of proportional change in body size. Gastropod size was correlated with population density and tidal height, and these relationships varied over time. Finally, the magnitude and direction of body-size change varied with the amount of data available for analysis, demonstrating that the use of size thresholds can lead to incomplete conclusions.

Published

2020

18. Temperature affects susceptibility of intertidal limpets to bird predation

Author

Felicia A. King, Jennifer L. Burnaford, Rachel J. Pound, and Luke P. Miller

Subjects

0106 biological sciences, Physiology, Gastropoda, Zoology, Intertidal zone, Context (language use), Aquatic Science, 010603 evolutionary biology, 01 natural sciences, Predation, Birds, Oystercatcher, Animals, Molecular Biology, Ecology, Evolution, Behavior and Systematics, biology, 010604 marine biology & hydrobiology, Limpet, Temperature, biology.organism_classification, Beak, Mollusca, Predatory Behavior, Insect Science, Ectotherm, Lottia gigantea, Animal Science and Zoology

Abstract

High temperatures resulting in physiological stress and the reduced ability to resist predation can have life-or-death consequences for an organism. We investigated the effects of temperature on the susceptibility to predation for an ectothermic intertidal mollusc (the owl limpet, Lottia gigantea Sowerby) and its predator, the black oystercatcher (Haematopus bachmani Audubon). The ability of L. gigantea to resist bird predation during low tide is determined by the tenacity of attachment to the rock. We developed a transducer to measure the force of predatory attacks on limpets by a captive black oystercatcher and tested the hypothesis that exposure to warm temperatures during low tide emersion would affect the limpet's ability to resist dislodgement in trials with a morphometrically accurate beak mimic and a live bird. In beak mimic trials, four times as many limpets exposed to warm low tides were removed, as compared to limpets exposed to cool low tides or in ‘no low tide’ submerged conditions. Minimum time before limpet removal in captive bird trials was more than six times longer for limpets in cool low tide or no low tide treatments compared to limpets in the warm low tide treatment. We measured shear forces up to 36.63 N during predatory strikes. These direct measurements of the forces exerted by a living oystercatcher provide context for interactions with multiple prey species. Our data suggest that naturally occurring variation in body temperatures among individual prey items in the field could be an important driver of predator-prey interactions and subsequently community patterns.

Published

2020

19. Thermal history and gape of individual Mytilus californianus correlate with oxidative damage and thermoprotective osmolytes

Author

Jacob R. Winnikoff, George N. Somero, Luke P. Miller, Paul H. Yancey, Dylan Bratz, W. Wesley Dowd, and Lani U. Gleason

Subjects

0106 biological sciences, Taurine, Antioxidant, Physiology, medicine.medical_treatment, Intertidal zone, Aquatic Science, 010603 evolutionary biology, 01 natural sciences, chemistry.chemical_compound, medicine, Molecular Biology, Ecology, Evolution, Behavior and Systematics, biology, Ecology, 010604 marine biology & hydrobiology, Mussel, biology.organism_classification, Mytilus, chemistry, Catalase, Osmolyte, Insect Science, biology.protein, Developmental plasticity, Animal Science and Zoology

Abstract

The ability of animals to cope with environmental stress depends – in part – on past experience, yet knowledge of the factors influencing an individual's physiology in nature remains underdeveloped. We used an individual monitoring system to record body temperature and valve gaping behavior of rocky intertidal zone mussels (Mytilus californianus). Thirty individuals were selected from two mussel beds (wave-exposed and wave-protected) that differ in thermal regime. Instrumented mussels were deployed at two intertidal heights (near the lower and upper edges of the mussel zone) and in a continuously submerged tidepool. Following a 23-day monitoring period, measures of oxidative damage to DNA and lipids, antioxidant capacities (catalase activity and peroxyl radical scavenging) and tissue contents of organic osmolytes were obtained from gill tissue of each individual. Univariate and multivariate analyses indicated that inter-individual variation in cumulative thermal stress is a predominant driver of physiological variation. Thermal history over the outplant period was positively correlated with oxidative DNA damage. Thermal history was also positively correlated with tissue contents of taurine, a thermoprotectant osmolyte, and with activity of the antioxidant enzyme catalase. Origin site differences, possibly indicative of developmental plasticity, were only significant for catalase activity. Gaping behavior was positively correlated with tissue contents of two osmolytes. Overall, these results are some of the first to clearly demonstrate relationships between inter-individual variation in recent experience in the field and inter-individual physiological variation, in this case within mussel beds. Such micro-scale, environmentally mediated physiological differences should be considered in attempts to forecast biological responses to a changing environment.

Published

2017

20. Repeatable patterns of small-scale spatial variation in intertidal mussel beds and their implications for responses to climate change

Author

Luke P. Miller and W. Wesley Dowd

Subjects

0106 biological sciences, animal structures, Hot Temperature, Time Factors, Physiology, Climate Change, Intertidal zone, Climate change, 010603 evolutionary biology, 01 natural sciences, Biochemistry, Body Temperature, Water Movements, Animals, Mean radiant temperature, Molecular Biology, Ecosystem, Shore, Mytilus, geography, geography.geographical_feature_category, biology, Behavior, Animal, Ecology, 010604 marine biology & hydrobiology, fungi, Mussel, biology.organism_classification, Habitat, Environmental science, Spatial variability

Abstract

The interaction of ocean conditions and weather with small-scale physical features of a habitat can have profound effects on the experiences of individual organisms. On topographically complex shorelines, and particularly within dense aggregations of organisms such as mussel beds, a mosaic of environmental conditions can develop, and the resulting variation in conditions within the aggregation could drastically alter the performance of neighboring individuals. Using a suite of sensors mounted to individual Mytilus californianus mussels over two summer field deployments, we have characterized the temperature variation and valve gaping behavior differences found at two spatial scales: within a group separated by centimeters, and between groups of mussels located at the upper and lower extents of the natural mussel zone separated by meters. While temperature conditions near the lower edge of the mussel bed were generally more benign, temperature extremes were similar at both heights in the bed, and variation in body temperature among neighbors increased as the daily mean temperature increased. These patterns were similar across years despite a 3.8 °C difference in mean air and seawater temperatures between years. Gaping behavior was also highly variable among individuals, though that variability diminished at the high end of the mussel bed where the total time mussels spent submerged was much more constrained. These data indicate that an individual mussel's physiological status and past history can be drastically different than those of its nearby neighbors, complicating our ability to characterize representative conditions within a habitat. These observations also provide for the possibility that the impacts of future climate change will be highly specific to certain individuals based on their relative exposure or protection within the mosaic. To address such possibilities, future work must examine the correlation between genotypic and physiological traits that determine performance and individuals' unique experiences in their disparate micro-environments.

Published

2019

21. Thermal history and gape of individual

Author

Lani U, Gleason, Luke P, Miller, Jacob R, Winnikoff, George N, Somero, Paul H, Yancey, Dylan, Bratz, and W Wesley, Dowd

Subjects

Gills, Mytilus, Oxidative Stress, Multivariate Analysis, Animals, Feeding Behavior, Environment, Antioxidants, Body Temperature

Abstract

The ability of animals to cope with environmental stress depends - in part - on past experience, yet knowledge of the factors influencing an individual's physiology in nature remains underdeveloped. We used an individual monitoring system to record body temperature and valve gaping behavior of rocky intertidal zone mussels (

Published

2017

22. Multimodal

Author

Luke P, Miller and W Wesley, Dowd

Subjects

Mytilus, Stress, Physiological, Animals, Feeding Behavior, Ecosystem, Body Temperature

Abstract

In complex habitats, environmental variation over small spatial scales can equal or exceed larger-scale gradients. This small-scale variation may allow motile organisms to mitigate stressful conditions by choosing benign microhabitats, whereas sessile organisms may rely on other behaviors to cope with environmental stresses in these variable environments. We developed a monitoring system to track body temperature, valve gaping behavior and posture of individual mussels (

Published

2017

23. Multimodalin situdatalogging quantifies inter-individual variation in thermal experience and persistent origin effects on gaping behavior among intertidal mussels (Mytilus californianus)

Author

W. Wesley Dowd and Luke P. Miller

Subjects

0106 biological sciences, biology, Physiology, Ecology, 010604 marine biology & hydrobiology, fungi, Intertidal zone, Mussel, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Mytilus, Oceanography, Lower body, Variation (linguistics), Habitat, Homogeneous, Insect Science, Animal Science and Zoology, 14. Life underwater, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Field conditions

Abstract

In complex habitats, environmental variation over small spatial scales can equal or exceed larger-scale gradients. This small-scale variation may allow motile organisms to mitigate stressful conditions by choosing benign microhabitats, whereas sessile organisms may rely on other behaviors to cope with environmental stresses in these variable environments. We developed a monitoring system to track body temperature, valve gaping behavior, and posture of individual mussels (Mytilus californianus) in field conditions in the rocky intertidal zone. Neighboring mussels’ body temperatures varied by up to 14°C during low tides. Valve gaping during low tide and postural adjustments, which could theoretically lower body temperature, were not commonly observed. Rather, gaping behavior followed a tidal rhythm at a warm, high intertidal site; this rhythm shifted to a circadian period at a low intertidal site and for mussels continuously submerged in a tidepool. However, individuals within a site varied considerably in time spent gaping when submerged. This behavioral variation could be attributed in part to persistent effects of mussels’ developmental environment. Mussels originating from a wave-protected, warm site gaped more widely, and they remained open for longer periods during high tide than mussels from a wave-exposed, cool site. Variation in behavior was modulated further by recent wave heights and body temperatures during the preceding low tide. These large ranges in body temperatures and durations of valve closure events – which coincide with anaerobic metabolism – support the conclusion that individuals experience “homogeneous” aggregations such as mussel beds in dramatically different fashion, ultimately contributing to physiological variation among neighbors.

Published

2017

24. The effect of water temperature on drilling and ingestion rates of the dogwhelk Nucella lapillus feeding on Mytilus edulis mussels in the laboratory

Author

Luke P. Miller

Subjects

Ecology, biology, Intertidal zone, Growing season, Aquatic Science, biology.organism_classification, Mytilus, Predation, Fishery, Sea surface temperature, Oceanography, Ingestion, Seawater, Ecology, Evolution, Behavior and Systematics, Nucella

Abstract

In highly seasonal intertidal habitats, changes in temperature through the year may drive substantial shifts in feeding and growth rates of organisms. For the dogwhelk Nucella lapillus, attacking and consuming Mytilus edulis mussels can take hours or days, depending on temperature. Handling time of dogwhelks feeding on mussels is therefore greatly affected by ocean temperature. I recorded attack time in the laboratory, partitioned into drilling and consumption time, for juvenile dogwhelks across a range of seawater temperatures representative of field seawater temperatures during the main growing seasons of summer and autumn. The combined length of a drilling attack and subsequent ingestion time tripled across the 10 °C decline in water temperatures from July through November, driven primarily by an increase in ingestion time. The observed reduction in handling time, coupled with projected sea surface warming in New England by the end of the twenty-first century, could extend the length of the growing season for Nucella and subsequently have cascading effects on the prey community.

Published

2013

25. Poised to prosper? A cross-system comparison of climate change effects on native and non-native species performance

Author

Inés Ibáñez, Luke P. Miller, Edwin D. Grosholz, Sierra J. Jones, Cascade J. B. Sorte, Jeffrey S. Dukes, Jeffrey M. Diez, Dana M. Blumenthal, Julian D. Olden, Carla M. D'Antonio, and Nicole A. Molinari

Subjects

Resistance (ecology), Ecology, Climate Change, Global warming, Temperature, Biodiversity, Climate change, Introduced species, Carbon Dioxide, Biology, Invasive species, Ecosystem, Introduced Species, Plant Physiological Phenomena, Ecology, Evolution, Behavior and Systematics, Global biodiversity

Abstract

Climate change and biological invasions are primary threats to global biodiversity that may interact in the future. To date, the hypothesis that climate change will favour non-native species has been examined exclusively through local comparisons of single or few species. Here, we take a meta-analytical approach to broadly evaluate whether non-native species are poised to respond more positively than native species to future climatic conditions. We compiled a database of studies in aquatic and terrestrial ecosystems that reported performance measures of non-native (157 species) and co-occurring native species (204 species) under different temperature, CO(2) and precipitation conditions. Our analyses revealed that in terrestrial (primarily plant) systems, native and non-native species responded similarly to environmental changes. By contrast, in aquatic (primarily animal) systems, increases in temperature and CO(2) largely inhibited native species. There was a general trend towards stronger responses among non-native species, including enhanced positive responses to more favourable conditions and stronger negative responses to less favourable conditions. As climate change proceeds, aquatic systems may be particularly vulnerable to invasion. Across systems, there could be a higher risk of invasion at sites becoming more climatically hospitable, whereas sites shifting towards harsher conditions may become more resistant to invasions.

Published

2012

26. Will extreme climatic events facilitate biological invasions?

Author

Joshua J. Lawler, Edwin D. Grosholz, Sierra J. Jones, Carla M. D'Antonio, Luke P. Miller, Cascade J. B. Sorte, Bethany A. Bradley, Regan Early, Inés Ibáñez, Jeffrey M. Diez, Julian D. Olden, Dana M. Blumenthal, and Jeffrey S. Dukes

Subjects

Geography, Ecology, Resistance (ecology), Research areas, Invasion process, Ecology (disciplines), Climate change, Ecosystem, Introduced species, Ecology, Evolution, Behavior and Systematics, Invasive species

Abstract

Extreme climatic events (ECEs) – such as unusual heat waves, hurricanes, floods, and droughts – can dramatically affect ecological and evolutionary processes, and these events are projected to become more frequent and more intense with ongoing climate change. However, the implications of ECEs for biological invasions remain poorly understood. Using concepts and empirical evidence from invasion ecology, we identify mechanisms by which ECEs may influence the invasion process, from initial introduction through establishment and spread. We summarize how ECEs can enhance invasions by promoting the transport of propagules into new regions, by decreasing the resistance of native communities to establishment, and also sometimes by putting existing non-native species at a competitive disadvantage. Finally, we outline priority research areas and management approaches for anticipating future risks of unwanted invasions following ECEs. Given predicted increases in both ECE occurrence and rates of species introductions around the globe during the coming decades, there is an urgent need to understand how these two processes interact to affect ecosystem composition and functioning.

Published

2012

27. Global change, global trade, and the next wave of plant invasions

Author

Inés Ibáñez, Jeffrey M. Diez, Jeffrey S. Dukes, Julian D. Olden, Regan Early, Luke P. Miller, Cascade J. B. Sorte, Carla M. D'Antonio, Dana M. Blumenthal, Bethany A. Bradley, Edwin D. Grosholz, and Joshua J. Lawler

Subjects

Plant ecology, Geography, Ecology, Environmental protection, Natural resource economics, Range (biology), Tropics, Climate change, Introduced species, Ecosystem, Global change, Ecology, Evolution, Behavior and Systematics, Invasive species

Abstract

Many non-native plants in the US have become problematic invaders of native and managed ecosystems, but a new generation of invasive species may be at our doorstep. Here, we review trends in the horticultural trade and invasion patterns of previously introduced species and show that novel species introductions from emerging horticultural trade partners are likely to rapidly increase invasion risk. At the same time, climate change and water restrictions are increasing demand for new types of species adapted to warm and dry environments. This confluence of forces could expose the US to a range of new invasive species, including many from tropical and semiarid Africa as well as the Middle East. Risk assessment strategies have proven successful elsewhere at identifying and preventing invasions, although some modifications are needed to address emerging threats. Now is the time to implement horticulture import screening measures to prevent this new wave of plant invasions.

Published

2012

28. Geographic variation in temperature tolerance as an indicator of potential population responses to climate change

Author

Sierra J. Jones, Cascade J. B. Sorte, and Luke P. Miller

Subjects

education.field_of_study, biology, Ecology, Population, Ecological forecasting, Littorina, Climate change, Intertidal zone, Pelagic zone, Aquatic Science, biology.organism_classification, Habitat, Biological dispersal, education, Ecology, Evolution, Behavior and Systematics

Abstract

article i nfo The temperature tolerances of individuals in geographically separated populations of a single species can be used as indicators of each population's potential to persist or become extinct in response to climate change. We evaluated the population-level variation in temperature tolerance in populations of several marine invertebrate taxa, including bryozoans, tunicates, bivalves, and gastropods, separated by distances of b200 km to N5000 km. We then combined physiological thermotolerance data with current temperature data and climate change predictions to predict which of these populations may be most vulnerable to future changes. In a trans-continental comparison of four subtidal epibenthic species, we show that populations on the east coast of the United States, which experienced higher habitat temperatures than those on the west coast, had higher thermal tolerances but lived closer to individuals' tolerance limits. Similarly, temperature tolerances varied between western and eastern Atlantic populations of the mussel Mytilus edulis; however, these differences only emerged after repeated exposures to high temperatures. Furthermore, the less thermotolerant M. edulispopulation in the western Atlantic was more susceptible to temperature increases, as evidenced by a recent range contraction. Thus, for both the subtidal epibenthic and intertidal mussel species, we identified the western Atlantic as a 'hot spot' of populations susceptible to climate change compared to those in the eastern Pacific and eastern Atlantic, respectively. Finally, because current tolerances are not the sole indicators of individuals' abilities to cope with temperature increases, we also assessed the possibility for acclimatization to facilitate the persistence of populations via the buffering of temperature effects. We show that, for four populations of intertidal Littorina snail species in the northwest Atlantic, most populations were able to overcome geographic differences in temperature tolerance via acclimation. When acclimation capacity is low, the potential for "rescue" may depend on the particular species' life-history strategy and dispersal ability. For example, although individuals from the coldest-adapted population of Littorina littorea were unable to acclimate as quickly as those from more southern populations, this species has a pelagic larval stage and, thus, the greatest dispersal potential of these littorines. Together, these studies highlight the importance of considering variation in temperature tolerance between populations within species to improve the forecasting of changes in the abundances and distributions of species in response to climate warming.

Published

2011

29. On the prediction of extreme ecological events

Author

Christopher D. G. Harley, Mark W. Denny, Luke J. H. Hunt, and Luke P. Miller

Subjects

Rocky shore, biology, Ecology, Patch dynamics, Lottia gigantea, Environmental science, Intertidal zone, Perturbation (astronomy), Climate change, biology.organism_classification, Ecological systems theory, Ecology, Evolution, Behavior and Systematics, Environmental data

Abstract

Ecological studies often focus on average effects of environmental factors, but ecological dynamics may depend as much upon environmental extremes. Ecology would therefore benefit from the ability to predict the frequency and severity of extreme environmental events. Some extreme events (e.g., earthquakes) are simple events: either they happen or they don't, and they are generally difficult to predict. In contrast, extreme ecological events are often compound events, resulting from the chance coincidence of run-of-the-mill factors. Here we present an environmental bootstrap method for resampling short-term environmental data (rolling the environmental dice) to calculate an ensemble of hypothetical time series that embodies how the physical environment could potentially play out differently. We use this ensemble in conjunction with mechanistic models of physiological processes to analyze the biological consequences of environmental extremes. Our resampling method provides details of these consequences that would be difficult to obtain otherwise, and our methodology can be applied to a wide variety of ecological systems. Here, we apply this approach to calculate return times for extreme hydrodynamic and thermal events on intertidal rocky shores. Our results demonstrate that the co-occurrence of normal events can indeed lead to environmental extremes, and that these extremes can cause disturbance. For example, the limpet Lottia gigantea and the mussel Mytilus californianus are co-dominant competitors for space on wave-swept rocky shores, but their response to extreme environmental events differ. Limpet mortality can vary drastically through time. Average yearly maximum body temperature of L. gigantea on horizontal surfaces is low, sufficient to kill fewer than 5% of individuals, but on rare occasions environmental factors align by chance to induce temperatures sufficient to kill >99% of limpets. In contrast, mussels do not exhibit large temporal variation in the physical disturbance caused by breaking waves, and this difference in the pattern of disturbance may have ecological consequences for these competing species. The effect of environmental extremes is under added scrutiny as the frequency of extreme events increases in response to anthropogenically forced climate change. Our method can be used to discriminate between chance events and those caused by long-term shifts in climate.

Published

2009

30. The role of temperature and desiccation stress in limiting the local-scale distribution of the owl limpet,Lottia gigantea

Author

Luke P. Miller, Mark W. Denny, and Christopher D. G. Harley

Subjects

Desiccation tolerance, Abiotic component, Rocky shore, Abiotic stress, Ecology, Limpet, Lottia gigantea, Gigantea, Intertidal zone, Biology, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Abstract

Summary 1. Small-scale distributions of rocky intertidal organisms may be determined in part by temperature and desiccation stress during low tide and the ability of organisms to resist such stresses. Biophysical modelling techniques, coupled with data on the physiological tolerance of organisms can be used to predict the frequency and severity of abiotic stress events. 2. The limpet Lottia gigantea is a major competitor for primary space on rocky shores along the west coast of North America. The goal of this study was to quantify the thermal and desiccation tolerance of this species and to predict the frequency of stressful events at Hopkins Marine Station (HMS) in Pacific Grove, CA, USA. 3. Lottia gigantea were exposed to thermal stress regimes in the laboratory using protocols designed to mimic prolonged exposures in the field. The production of heat shock protein 70 (Hsp70) was measured as an indicator of sub-lethal stress, and mortality rates were measured. 4. Peak expression of Hsp70 occurred during exposures at 32 ° C, while the lethal limits of the limpets ranged between 30 and 42 ° C, depending on the exposure regime. Lethal temperatures were approximately 5 ° C lower in 50‐60% relative humidity conditions compared to 100% relative humidity trials. 5. Results from the physiology experiments were compared to field surveys of the upper limits of L. gigantea at HMS and with heat-budget model predictions of limpet body temperatures on a variety of substratum orientations. 6. The highest frequency of sub-lethal and lethal stress events was predicted to occur on highshore westerly and southerly slopes and horizontal surfaces, microhabitats where L. gigantea is comparatively rare at HMS. Predicted stress and mortality events were rare at low-shore sites, vertical surfaces, and sloping rock faces oriented towards the northeast and northwest. 7. The combination of direct measurements of sub-lethal and lethal temperature thresholds using realistic stress exposures and predictions from a heat-budget model give insight into the role of thermal disturbance in affecting the local-scale distributions of intertidal organisms. These methods hold great promise for enhancing our understanding of the role of abiotic factors in limiting species distributions and making predictions about responses to future climatic conditions.

Published

2009

31. Thermal stress and morphological adaptations in limpets

Author

Katharine J. Mach, Mark W. Denny, Christopher D. G. Harley, and Luke P. Miller

Subjects

biology, Ecology, Ectotherm, Limpet, Gastropoda, Lottia gigantea, Intertidal zone, Patella vulgata, Patellidae, Atmospheric sciences, biology.organism_classification, Mollusca, Ecology, Evolution, Behavior and Systematics

Abstract

Summary 1On thermally stressful rocky shores, small, slow-moving ectotherms such as limpets exhibit morphological characteristics such as high-spired and heavily ridged shells which may reduce the likelihood of reaching stressful or lethal body temperatures. 2The effects of shell height and shell surface area on predicted limpet body temperatures were tested with a previously developed heat budget model. The model was parameterized with morphological data from three species (Lottia gigantea, Patella vulgata and Siphonaria gigas), which differ dramatically in their morphology and in the body temperatures they are likely to reach in the field. 3Limpet models and standard cones with higher height : length ratios lost heat to convection more readily than models with lower spired shells. 4Heavily ridged shells lost heat to convection more readily than smoother shells, but this effect was only pronounced at high wind velocities. 5When the heat budget model parameters were applied to a real environmental data set, the model predicts that maximum body temperatures and cumulative thermal stress vary among species. These differences are related primarily to the height : length ratio of the shell, and to a lesser extent to the presence of ridges. 6These results suggest that some intra- and interspecific variation in limpet morphology may be phenotypic or evolutionary responses to variation in environmental temperatures. Our findings are supported by observed patterns of limpet morphological variation across natural thermal gradients.

Published

2009

32. Feeding in extreme flows: behavior compensates for mechanical constraints in barnacle cirri

Author

Luke P. Miller

Subjects

Phenotypic plasticity, Ecology, Breaking wave, Mechanics, Aquatic Science, Biology, Plasticity, Water velocity, biology.organism_classification, Chthamalus fissus, Rocky shore, Barnacle, Local environment, Ecology, Evolution, Behavior and Systematics

Abstract

Plastic morphological changes in response to environmental cues can allow organisms to adapt to their local environment. Barnacle feeding legs (cirri) exhibit substantial plasticity in size and shape along wave exposure gradients on rocky shores, but only up to a certain limit in maximum water velocities. Above the limit, the morphology of the cirri becomes invariant. Behavioral observa- tions of barnacles feeding at a wave-exposed shore indicate that the fast response time for feeding motions allows barnacles to avoid potentially damaging flows associated with breaking waves, while still allowing feeding between wave impacts. The ability of barnacles to avoid individual waves indi- cates that the apparent limit in morphological plasticity may not be a result of physiological limits in cirral form, but rather a result of the barnacles reacting to some measure of the environment besides extreme flow speeds.

Published

2007

33. Barriers to flow: The effects of experimental cage structures on water velocities in high-energy subtidal and intertidal environments

Author

Brian Gaylord and Luke P. Miller

Subjects

High energy, Water flow, Velocity reduction, Flow (psychology), Enclosure, Mineralogy, Intertidal zone, Aquatic Science, Biology, Flow conditions, Physics::Atomic and Molecular Clusters, Biological system, Cage, Ecology, Evolution, Behavior and Systematics

Abstract

For decades, marine ecologists have used cages as biological enclosure or exclosure devices to manipulate movement, growth, and survival of organisms. The ability to control the densities of focal organisms makes these structures a powerful tool. However, cages can often produce artifacts that influence the outcome of experiments. Although a subset of these artifacts have been examined previously, the effects of cages on water motion have not been adequately addressed from a quantitative standpoint, especially in high-flow environments. We targeted this data gap by explicitly measuring the fractional degree of velocity reduction inside a variety of experimental cage structures across flow conditions spanning those typical of wave-swept shallow subtidal and intertidal zones. Cages decreased velocities inside by up to 47% and reduced high-energy impact forces by more than 40%. Associated cage controls, employed to mimic physical effects of cages without interfering with organism movement, often had effects on water flow similar to those of cages. However, the nearly half an order of magnitude change in velocities inside cages and their controls reveals the need to be vigilant in considering potential artifacts, especially those tied to secondary biological interactions. These artifacts may be reduced by maximizing mesh size, employing large plot sizes and low profile structures, using cage controls that best mimic effects of the full cage, and monitoring cage controls to avoid the establishment of high-density “consumer hotels” within them. Using such approaches, researchers can minimize experimental biases and simplify the explanation of experimental results.

Published

2007

34. Dislodged but not dead: survivorship of a high intertidal snail following wave dislodgement

Author

Luke P. Miller, Katharine J. Mach, and Michael P. O'Donnell

Subjects

Shore, geography, geography.geographical_feature_category, biology, Ecology, Intertidal zone, Snail, Aquatic Science, biology.organism_classification, Predation, Fishery, Habitat, biology.animal, Gastropoda, Littorina keenae, Mollusca

Abstract

Waves breaking on rocky shorelines impart large forces on intertidal organisms, sometimes dislodging individuals. Dislodged individuals may be deposited in habitats that have a greater risk of predation or that prevent return to preferred regions on the shore. Thus, dislodgement is often assumed to be lethal. We experimentally dislodged Littorina keenae snails from high in the intertidal zone to test the likelihood of survival. Under a variety of wave conditions, we measured return rates to the high shore of 54–90%, so in this species, dislodgement is not equal to death. Snails showed a strong preference for returning to the approximate tidal height from which they were dislodged, but we found no evidence of widespread homing behaviour back to the original site of dislodgement.

Published

2007

35. Extreme water velocities: Topographical amplification of wave-induced flow in the surf zone of rocky shores

Author

Luke P. Miller, Luke J. H. Hunt, Brian Helmuth, M. D. Stokes, and Mark W. Denny

Subjects

Shore, Hydrology, geography, geography.geographical_feature_category, Water flow, Breaking wave, Intertidal zone, Aquatic Science, Surf zone, Oceanography, Rocky shore, Wave tank, Phase velocity, Geomorphology, Geology

Abstract

Water velocities as high as 25 m s 21 have been recorded in the surf zone of wave-swept rocky shores—velocities more than twice the phase speed of the breaking waves with which they are associated. How can water travel twice as fast as the waveform that initially induces its velocity? We explore the possibility that the interaction of a wave with the local topography of the shore can greatly amplify the water velocities imposed on intertidal plants and animals. Experiments in a laboratory wave tank show that interactions between bores refracted by a prowlike beach can produce jets in which the velocity is nearly twice the bore’s phase speed. This velocity can be further amplified by a factor of 1.3‐1.6 if the jet strikes a vertical wall. This type of topographically induced amplification of water velocity could result in substantial spatial variation in wave-induced hydrodynamic forces and might thereby help to explain the patchwork nature of disturbance that is characteristic of intertidal communities.

Published

2003

36. Thermal stress and predation risk trigger distinct transcriptomic responses in the intertidal snail Nucella lapillus

Author

Steven V. Vollmer, Nathaniel D. Chu, Geoffrey C. Trussell, Stefan T. Kaluziak, and Luke P. Miller

Subjects

Abiotic component, Food Chain, Hot Temperature, biology, Ecology, Brachyura, Sequence Analysis, RNA, Snails, Intertidal zone, Snail, biology.organism_classification, Predation, Rocky shore, biology.animal, Predatory Behavior, Gene expression, Genetics, Animals, Carcinus maenas, Transcriptome, Ecology, Evolution, Behavior and Systematics, Heat-Shock Proteins, Heat-Shock Response, Nucella

Abstract

Thermal stress and predation risk have profound effects on rocky shore organisms, triggering changes in their feeding behaviour, morphology and metabolism. Studies of thermal stress have shown that underpinning such changes in several intertidal species are specific shifts in gene and protein expression (e.g. upregulation of heat-shock proteins). But relatively few studies have examined genetic responses to predation risk. Here, we use next-generation RNA sequencing (RNA-seq) to examine the transcriptomic (mRNA) response of the snail Nucella lapillus to thermal stress and predation risk. We found that like other intertidal species, N. lapillus displays a pronounced genetic response to thermal stress by upregulating many heat-shock proteins and other molecular chaperones. In contrast, the presence of a crab predator (Carcinus maenas) triggered few significant changes in gene expression in our experiment, and this response showed no significant overlap with the snail's response to thermal stress. These different gene expression profiles suggest that thermal stress and predation risk could pose distinct and potentially additive challenges for N. lapillus and that genetic responses to biotic stresses such as predation risk might be more complex and less uniform across species than genetic responses to abiotic stresses such as thermal stress.

Published

2014

37. Integrated assessment of biological invasions

Author

Dana M. Blumenthal, Jeffrey M. Diez, Joshua J. Lawler, Edwin D. Grosholz, Cascade J. B. Sorte, Luke P. Miller, Jeffrey S. Dukes, Ibnes Ibanez, Regan Early, Julian D. Olden, Carla M. D'Antonio, and Bethany A. Bradley

Subjects

Mytilus, Models, Statistical, Ecology, Ecology (disciplines), Climate change, Introduced species, Astacoidea, Celastrus, Biology, Models, Biological, United States, Habitat, Biological dispersal, Animals, Ecosystem, Economic impact analysis, Set (psychology), Introduced Species, Demography

Abstract

As the main witnesses of the ecological and economic impacts of invasions on ecosystems around the world, ecologists seek to provide the relevant science that informs managers about the potential for invasion of specific organisms in their region(s) of interest. Yet, the assorted literature that could inform such forecasts is rarely integrated to do so, and further, the diverse nature of the data available complicates synthesis and quantitative prediction. Here we present a set of analytical tools for synthesizing different levels of distributional and/or demographic data to produce meaningful assessments of invasion potential that can guide management at multiple phases of ongoing invasions, from dispersal to colonization to proliferation. We illustrate the utility of data-synthesis and data-model assimilation approaches with case studies of three well-known invasive species--a vine, a marine mussel, and a freshwater crayfish--under current and projected future climatic conditions. Results from the integrated assessments reflect the complexity of the invasion process and show that the most relevant climatic variables can have contrasting effects or operate at different intensities across habitat types. As a consequence, for two of the study species climate trends will increase the likelihood of invasion in some habitats and decrease it in others. Our results identified and quantified both bottlenecks and windows of opportunity for invasion, mainly related to the role of human uses of the landscape or to disruption of the flow of resources. The approach we describe has a high potential to enhance model realism, explanatory insight, and predictive capability, generating information that can inform management decisions and optimize phase-specific prevention and control efforts for a wide range of biological invasions.

Published

2014

38. Importance of behavior and morphological traits for controlling body temperature in littorinid snails

Author

Luke P. Miller and Mark W. Denny

Subjects

geography, geography.geographical_feature_category, Behavior, Animal, Ecology, Snails, Temperature, Intertidal zone, Estuary, Biology, Environment, Models, Biological, California, Body Temperature, Rocky shore, South Africa, Lower body, Species Specificity, Grazing, Functional significance, Animals, General Agricultural and Biological Sciences

Abstract

For organisms living in the intertidal zone, temperature is an important selective agent that can shape species distributions and drive phenotypic variation among populations. Littorinid snails, which occupy the upper limits of rocky shores and estuaries worldwide, often experience extreme high temperatures and prolonged aerial emersion during low tides, yet their robust physiology— coupled with morphological and behavioral traits—permits these gastro- pods to persist and exert strong grazing control over algal communities. We use a mechanistic heat-budget model to compare the effects of behavioral and morphological traits on the body temperatures of five species of littorinid snails under natural weather conditions. Model predictions and field experiments indicate that, for all five species, the relative contribution of shell color or sculpturing to temper- ature regulation is small, on the order of 0.2-2 °C, while behavioral choices such as removing the foot from the substratum or reorienting the shell can lower body temper- atures by 2- 4 °C on average. Temperatures in central Cal- ifornia rarely exceeded the thermal tolerance limits of the local littorinid species during the study period, but at sites where snails are regularly exposed to extreme high temper- atures, the functional significance of the tested traits may be important. The mechanistic approach used here provides the ability to gauge the importance of behavioral and morpho- logical traits for controlling body temperature as species approach their physiological thresholds.

Published

2011

39. Jet propulsion in the cold: Mechanics of swimming in the Antarctic scallop Adamussium colbecki

Author

Luke P. Miller and Mark W. Denny

Subjects

Physiology, Muscles, Antarctic Regions, Proteins, Aquatic Science, Jet propulsion, Biomechanical Phenomena, Fishery, Cold Temperature, Pectinidae, Oceanography, Insect Science, Scallop, Environmental science, Animals, Animal Science and Zoology, Seawater, Resilience (materials science), Power output, Antarctic scallop, Adductor muscles, Adamussium colbecki, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Swimming

Abstract

SUMMARYUnlike most bivalves, scallops are able to swim, relying on a shell with reduced mass and streamlined proportions, a large fast-twitch adductor muscle and the elastic characteristics of the shell's hinge. Despite these adaptations, swimming in scallops is never far from failure, and it is surprising to find a swimming scallop in Antarctica, where low temperature increases the viscosity of seawater, decreases the power output of the adductor muscle and potentially compromises the energy storage capability of the hinge material (abductin, a protein rubber). How does the Antarctic scallop, Adamussium colbecki, cope with the cold? Its shell mass is substantially reduced relative to that of temperate and tropical scallops, but this potential advantage is more than offset by a drastic reduction in adductor-muscle mass. By contrast, A. colbecki's abductin maintains a higher resilience at low temperatures than does the abductin of a temperate scallop. This resilience may help to compensate for reduced muscle mass,assisting the Antarctic scallop to maintain its marginal swimming ability. However, theory suggests that this assistance should be slight, so the adaptive value of increased resilience remains open to question. The high resilience of A. colbecki abductin at low temperatures may be of interest to materials engineers.

Published

2006

40. Thermal stress on intertidal limpets: long-term hindcasts and lethal limits

Author

Christopher D. G. Harley, Luke P. Miller, and Mark W. Denny

Subjects

Shore, geography, geography.geographical_feature_category, Hot Temperature, biology, Physiology, Limpet, Climate, Gastropoda, Gigantea, Intertidal zone, Aquatic Science, biology.organism_classification, Models, Biological, Oceanography, Insect Science, Lottia gigantea, Animals, Animal Science and Zoology, Spatial variability, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Body Temperature Regulation

Abstract

SUMMARYWhen coupled with long-term meteorological records, a heat-budget model for the limpet, Lottia gigantea, provides a wealth of information regarding environmental and topographic controls of body temperature in this ecologically important species. (1) The maximum body temperature predicted for any site (37.5°C) is insufficient to kill all limpets, suggesting that acute thermal stress does not set an absolute upper limit to the elevation of L. gigantea on the shore. Therefore, the upper limit must be set by behavioral responses, sublethal effects or ecological interactions. (2)Temperatures sufficient to kill limpets are reached at only a small fraction of substratum orientations and elevations and on only three occasions in 5 years. These rare predicted lethal temperatures could easily be missed in field measurements, thereby influencing the interpretation of thermal stress.(3) Body temperature is typically higher than air temperature, but maximum air temperature can nonetheless be used as an accurate predictor of maximum body temperature. Warmer air temperatures in the future may thus cause increased mortality in this intertidal species. Interpretation of the ecological effects of elevated body temperature depends strongly on laboratory measurements of thermal stress, highlighting the need for additional research on the temporal and spatial variability of thermal limits and sublethal stress. The lengthy time series of body temperatures calculated from the heat-budget model provides insight into how these physiological measurements should be conducted.

Published

2006

41. Global change, global trade, and the next wave of plant invasions.

Author

Bethany A Bradley, Dana M Blumenthal, Regan Early, Edwin D Grosholz, Joshua J Lawler, Luke P Miller, Sorte, Cascade J. B., D'Antonio, Carla M., Diez, Jeffrey M., Dukes, Jeffrey S., Ibanez, Ines, and Olden, Julian D.

Subjects

PLANT invasions, ECOSYSTEM management, INTRODUCED species, CLIMATE change, ENVIRONMENTAL risk assessment

Abstract

Many non-native plants in the US have become problematic invaders of native and managed ecosystems, but a new generation of invasive species may be at our doorstep. Here, we review trends in the horticultural trade and invasion patterns of previously introduced species and show that novel species introductions from emerging horticultural trade partners are likely to rapidly increase invasion risk. At the same time, climate change and water restrictions are increasing demand for new types of species adapted to warm and dry environments. This confluence of forces could expose the US to a range of new invasive species, including many from tropical and semiarid Africa as well as the Middle East. Risk assessment strategies have proven successful elsewhere at identifying and preventing invasions, although some modifications are needed to address emerging threats. Now is the time to implement horticulture import screening measures to prevent this new wave of plant invasions. [ABSTRACT FROM AUTHOR]

Published

2012

42. Chemoselective Reactions of 3-Benzyloxy-1,2-o-Quinone with Organometallic Reagents.

Author

Luke A. Miller, Maurice A. Marsini, and Thomas R. R. Pettus

Published

2009

43. Redox-Modulated Recognition of Tetrazines Using Thioureas.

Author

Brian J. Jordan, Michael A. Pollier, Luke A. Miller, Christopher Tiernan, Gilles Clavier, Pierre Audebert, and Vincent M. Rotello

Published

2007

44. Simulated proximity enhances perceptual and physiological responses to emotional facial expressions

Author

Olena V. Bogdanova, Volodymyr B. Bogdanov, Luke E. Miller, and Fadila Hadj-Bouziane

Subjects

Medicine, Science

Abstract

Abstract Physical proximity is important in social interactions. Here, we assessed whether simulated physical proximity modulates the perceived intensity of facial emotional expressions and their associated physiological signatures during observation or imitation of these expressions. Forty-four healthy volunteers rated intensities of dynamic angry or happy facial expressions, presented at two simulated locations, proximal (0.5 m) and distant (3 m) from the participants. We tested whether simulated physical proximity affected the spontaneous (in the observation task) and voluntary (in the imitation task) physiological responses (activity of the corrugator supercilii face muscle and pupil diameter) as well as subsequent ratings of emotional intensity. Angry expressions provoked relative activation of the corrugator supercilii muscle and pupil dilation, whereas happy expressions induced a decrease in corrugator supercilii muscle activity. In proximal condition, these responses were enhanced during both observation and imitation of the facial expressions, and were accompanied by an increase in subsequent affective ratings. In addition, individual variations in condition related EMG activation during imitation of angry expressions predicted increase in subsequent emotional ratings. In sum, our results reveal novel insights about the impact of physical proximity in the perception of emotional expressions, with early proximity-induced enhancements of physiological responses followed by an increased intensity rating of facial emotional expressions.

Published

2022

45. Interactive Human–Robot Skill Transfer: A Review of Learning Methods and User Experience

Author

Mehmet Ege Cansev, Honghu Xue, Nils Rottmann, Adna Bliek, Luke E. Miller, Elmar Rueckert, and Philipp Beckerle

Subjects

human–robot interaction, movement primitives, shared autonomy, transfer learning, user experience, Computer engineering. Computer hardware, TK7885-7895, Control engineering systems. Automatic machinery (General), TJ212-225

Abstract

Generalizing the operation of robots in dynamical environments regardless of the task complexity is one of the ultimate goals of robotics researchers. Learning from demonstration approaches supported by transfer learning and user feedback offer a remarkable solution to achieve generalization. The main idea behind such approaches is teaching robots new skills with human instructors and training parametric models with data from demonstrations to achieve and update the desired skills under changing conditions. Herein, the applications of skill transfer with reinforcement learning algorithms and the effect of user experience (UX) on learning from demonstration approaches are reviewed. This review outlines the importance of considering and evaluating UX during human–robot interaction and, especially, robot teaching. A detailed view on the relations between robot learning and UX is provided and approaches for future improvements are derived. Finally, adaptive autonomy sharing between the robot and the user during teaching is presented as a promising approach to enhance the interaction by exploiting user feedback. In the long run, interactive and user‐centered human–robot skill transfer is expected to reduce cognitive and physical load of the user. Discussion on future research questions aiming to improve learning process and semiautonomous behavior concludes the review.

Published

2021