Your search keyword '"GREEN, DAVID"' showing total 632 results

1. Education and inequality: an international perspective.

Author

Bennett, Patrick, Foley, Kelly, Green, David A., and Salvanes, Kjell G.

Subjects

EDUCATIONAL objectives, INCOME, GENDER

Abstract

In this paper, we summarise the existing literature and present new empirical evidence in order to address the questions of whether educational expansion is an effective tool for reducing inequality and whether some educational systems have better associations with lower inequality and others worse. We argue that – depending on the form the policies take, on the extent of intergenerational correlations in income and on the levers of educational access – policies that aim at increasing education are not necessarily beneficial in the sense of reducing inequality. Differential impacts of different systems by gender are particularly striking. [ABSTRACT FROM AUTHOR]

Published

2024

2. Changing inequalities in Europe and North America: part two.

Author

Banks, James, Blundell, Richard, Bozio, Antoine, Cribb, Jonathan, Green, David, and Ziliak, James P.

Subjects

WESTERN countries, INTERGENERATIONAL mobility, LABOR market, EDUCATIONAL mobility, DISPOSABLE income

Abstract

This special issue is the second in a two‐part series on the evolution of labour market and disposable income inequalities over recent decades in 17 high‐income countries in Europe and North America. In this Introduction, we provide additional background for the cross‐country project, which has been conducted in parallel to the wider IFS Deaton Review of Inequalities. We briefly summarise the key trends and findings of the papers that cover five Western European countries and four Southern European countries, and a companion paper on the role of education and intergenerational mobility across all 17 countries. [ABSTRACT FROM AUTHOR]

Published

2024

3. Latitudinal gradients and sex differences in morphology of the Black Oystercatcher (Haematopus bachmani).

Author

Roodenrijs, Hannah, Ware, Lena, Rankin, Cole, Maftei, Mark, Hipfner, J. Mark, Robinson, Brian H., Esler, Daniel, Coletti, Heather, and Green, David J.

Subjects

SPECIES diversity, BODY size, SEXUAL dimorphism, MIGRATORY animals, REGIONAL differences, SHORE birds, MIGRATORY birds

Abstract

Environment and behavior are widely understood to affect bird morphology, which can lead to differences among subspecies or populations within a wide‐ranging species. Several patterns of latitudinal gradients in morphology have been described, though Allen's and Bergmann's rules are the most well‐known and have been tested and confirmed across a diversity of taxa and species. These state that individuals at higher latitudes will have larger bodies (Bergmann's Rule) but smaller extremities (Allen's Rule) to conserve heat in colder climates. Migratory behavior also can influence avian morphology, particularly wing shape, where migratory birds tend to have longer, more pointed wings than residents. The Black Oystercatcher (Haematopus bachmani) is a large, partially migratory shorebird species restricted to intertidal habitats and distributed from Alaska to Baja California, spanning about 35° of latitude. A large proportion of Black Oystercatchers that breed in Alaska are migratory, where nearly all individuals breeding in British Columbia through the southern end of their range remain resident through the annual cycle. Their broad latitudinal range and diversity in migratory behavior may drive geographic variation in morphology. Here we evaluate three explanations for geographic variation in morphology of the Black Oystercatcher using data from seven sites across two regions: Alaska and British Columbia. We found evidence consistent with Allen's but not Bergmann's rule; birds in Alaska have shorter bills than those in British Columbia, and these findings held when controlling for body size using wing length. Despite regional differences in migratory behavior, we detected no difference in the wing shape of birds in Alaska and British Columbia. Differences between sexes and among sites suggest that multiple factors drive patterns of morphological variation in the Black Oystercatcher. [ABSTRACT FROM AUTHOR]

Published

2024

4. Supporting equitable care of patients transferred from police watch‐houses to the emergency department: A qualitative study of the perspectives of emergency doctors.

Author

Brandenburg, Caitlin, Thomas, Stuart DM, Lincoln, Cathy, Somerville, Annabel, Heffernan, Ed, Kinner, Stuart A, Byrnes, Joshua, Gardiner, Paul, Davidson, Peter, Daley, Nathan, Green, David, and Crilly, Julia

Subjects

HEALTH services accessibility, RESEARCH funding, QUALITATIVE research, CRIMINALS, EMERGENCY physicians, HUMAN beings, INTERVIEWING, CONTENT analysis, HOSPITAL emergency services, PHYSICIANS' attitudes, JUDGMENT sampling, DESCRIPTIVE statistics, RESEARCH methodology, POLICE, HEALTH equity, PSYCHOSOCIAL factors, TRANSPORTATION of patients

Abstract

Objective: People detained in short‐term police custody often have complex health conditions that may necessitate emergency care, yet little is known about their management in EDs. The present study aimed to understand ED doctors' experiences and perceptions regarding the appropriateness and management of detainee transfers from police watch‐houses to the EDs. Methods: A qualitative descriptive study, using semi‐structured interviews undertaken with ED doctors working in five purposively sampled EDs across Queensland, Australia. Data were analysed using inductive content analysis. Results: Fifteen ED specialists and trainees participated. Participants reported that their overarching approach was to provide equitable care for watch‐house detainees, as they would for any patient. This equitable approach needed to be responsive to complicating factors common to this population, including presence of police guards; restraints; complexity (physical/mental/social) of presentation; reliance on police to transport; ED doctors' often limited understanding of the watch‐house environment; justice processes and uncertain legal disposition; communication with the watch‐house; and detainees misreporting symptoms. Thresholds for assessment and treatment of detainees were contextualised to the needs of the patient, ED environment, and imperatives of other relevant agencies (e.g. police). Participants often relied on existing strategies to deliver quality care despite challenges, but also identified a need for additional strategies, including education for ED staff; improved communication with watch‐houses; standardised paperwork; extended models of watch‐house healthcare; and integrated medical records. Conclusions: Providing equitable healthcare to patients transported from watch‐houses to the EDs is challenging but essential. Numerous opportunities exist to enhance the delivery of optimal care for this underserved population. [ABSTRACT FROM AUTHOR]

Published

2024

5. A multispecies hierarchical model to integrate count and distance‐sampling data.

Author

Gilbert, Neil A., Blommel, Caroline M., Farr, Matthew T., Green, David S., Holekamp, Kay E., and Zipkin, Elise F.

Subjects

DATA integration, WILDLIFE management, NATIONAL parks & reserves, INFORMATION sharing, HIERARCHICAL Bayes model, DATA modeling, SPATIAL variation

Abstract

Integrated community models—an emerging framework in which multiple data sources for multiple species are analyzed simultaneously—offer opportunities to expand inferences beyond the single‐species and single‐data‐source approaches common in ecology. We developed a novel integrated community model that combines distance sampling and single‐visit count data; within the model, information is shared among data sources (via a joint likelihood) and species (via a random‐effects structure) to estimate abundance patterns across a community. Parameters relating to abundance are shared between data sources, and the model can specify either shared or separate observation processes for each data source. Simulations demonstrated that the model provided unbiased estimates of abundance and detection parameters even when detection probabilities varied between the data types. The integrated community model also provided more accurate and more precise parameter estimates than alternative single‐species and single‐data‐source models in many instances. We applied the model to a community of 11 herbivore species in the Masai Mara National Reserve, Kenya, and found considerable interspecific variation in response to local wildlife management practices: Five species showed higher abundances in a region with passive conservation enforcement (median across species: 4.5× higher), three species showed higher abundances in a region with active conservation enforcement (median: 3.9× higher), and the remaining three species showed no abundance differences between the two regions. Furthermore, the community average of abundance was slightly higher in the region with active conservation enforcement but not definitively so (posterior mean: higher by 0.20 animals; 95% credible interval: 1.43 fewer animals, 1.86 more animals). Our integrated community modeling framework has the potential to expand the scope of inference over space, time, and levels of biological organization, but practitioners should carefully evaluate whether model assumptions are met in their systems and whether data integration is valuable for their applications. [ABSTRACT FROM AUTHOR]

Published

2024

6. Natural disturbance allows multiple anuran taxa to persist in a dynamic wetland complex.

Author

Tawa, Victoria, Tozer, Douglas C., and Green, David M.

Subjects

SAND dunes, WETLANDS, BIODIVERSITY conservation, EFFECT of herbicides on plants, PHRAGMITES australis, ENDANGERED species, WILDLIFE management, WATER levels

Abstract

The maintenance of biological diversity is frequently enhanced in a heterogenous landscape by some level of disturbance. Thus, when a landscape becomes stabilized and homogenized through the spread of an invasive plant species, there may be consequences for native biodiversity, particularly for those biotas that depend on the pre‐existing, natural disturbance regime of that landscape. At Long Point, Ontario, Canada, a sandspit in Lake Erie, the community of anuran amphibians experienced the co‐incidence of 2 major disturbance events, 1 anthropogenic and 1 natural: an intervention to remove the invasive form of the common reed (Phragmites australis australis) and a spate of extensive dune washouts caused by high water levels and storms. As a result of the unequal distribution of disturbance in the landscape, different areas were affected by only the dune washouts, only the common reed treatment, both disturbances, or neither disturbance. From May to August 2021, we explored how the disturbances affected the resident frog and toad species habitat associations in the 4 different disturbance conditions in the landscape. By means of minnow traps, acoustic surveys, and visual surveys, we determined that the dune washouts had a greater influence on resident anurans than the common reed treatment. Ranid frogs (Ranidae) tended to inhabit non‐washout sites, whereas Fowler's toads (Anaxyrus fowleri) congregated in the newly formed, sand flats and shallow, de‐vegetated pools resulting from the washouts. Neither ranid frogs nor Fowler's toads demonstrated avoidance of the sites affected by the herbicide treatment and mechanical rollover of the common reed. This evidence of species sorting, which enables multiple species to persist in a dynamic and heterogeneous landscape, suggests that wildlife management in aid of threatened species recovery may find success by encouraging natural disturbance regimes in dynamic landscapes. Future management endeavors should consider refraining from complete dune stabilization in these landscapes to allow the natural washouts to occur at a higher frequency, while ensuring the continued effectiveness of the invasive common reed eradication. [ABSTRACT FROM AUTHOR]

Published

2024

7. Canadian inequality over the last 40 years: common and contrary variations on universal themes.

Author

Foley, Kelly, Green, David A., and Riddell, W. Craig

Subjects

INCOME inequality, GINI coefficient, MINIMUM wage, EARNINGS trends, LABOR market, DISPOSABLE income

Abstract

The Gini coefficient for disposable income for Canada in 2019 was approximately the same level it was at in 1995. Underlying this flat recent long‐term pattern is an increase in the level of market earnings inequality in the 1980s and 1990s that Canada shared with other countries followed by a continuing period of flatness in that measure as well. This trend interacted with changes in policy that have, at times, offset earnings inequality trends and at other times exacerbated them. In this paper, we describe these trends and the combination of market and policy forces that drove them. We conclude that explanations rooted in ongoing technology or globalisation forces are less relevant than explanations based on deeper structural changes in the labour market. Those changes affecting earnings inequality were ultimately fully offset by changes in the tax and transfer system as well as labour market policies such as the minimum wage. [ABSTRACT FROM AUTHOR]

Published

2024

8. Changing labour market and income inequalities in Europe and North America: a parallel project to the IFS Deaton Review of Inequalities in the 21st century.

Author

Banks, James, Blundell, Richard, Bozio, Antoine, Cribb, Jonathan, Green, David, and Ziliak, James P.

Subjects

LABOR market, INCOME inequality, ENGLISH-speaking countries, GENDER wage gap, HIGH-income countries

Abstract

The evolution of labour market and disposable income inequalities over recent decades in high‐income countries has generated intense interest in academia and the wider public. The extent to which there have been common trends, or diverging experiences, across a broad range of different countries, remains relatively understudied. The papers in this two‐part special issue seek to provide the bases for consistent comparisons across 17 North American and European countries. In this Introduction we provide background for the cross‐country project, which has been conducted in parallel to the wider IFS Deaton Review of Inequalities. In addition, we provide brief summaries of key trends and findings in the four English‐speaking countries and four Nordic countries, as well as a companion paper on gender pay gaps across all 17 countries. [ABSTRACT FROM AUTHOR]

Published

2024

9. The physical determinants of maximal jumping time of flight in elite trampolining.

Author

Dyas, Natalie, Green, David, Thomas, Kevin, Matthew, Esme, and Howatson, Glyn

Subjects

*EXERCISE tests, *RESEARCH, *STATISTICS, *ISOMETRIC exercise, *SCIENTIFIC method, *TIME, *MULTIPLE regression analysis, *COMPARATIVE studies, *GYMNASTICS, *MUSCLE strength, *DESCRIPTIVE statistics, *RESEARCH funding, *JUMPING, *ATHLETIC ability, *STATISTICAL correlation, *DATA analysis software, *BIOPHYSICS, *KINEMATICS

Abstract

Time of flight (ToF) is an objective scoring component of elite trampolining, assessed in training by maximal jump tests. The aim of this study was to assess the relationship between physical floor based performance meaures and 20-maximum ToF. Thirty-two elite level gymnasts (13 senior; 19 junior) performed a battery of floor based tests and a 20-maximum jump test. Floor based tests included cycling peak power output, reactive strength index (RSI), unloaded countermovement jumps (CMJ), and loaded CMJ's to construct a load-velocity profile for prediction of theoretical maximum force (CMJ F0). Very large and large, positive bivariate relationships were observed between CMJ F0 and ToF for the seniors (r = 0.85) and juniors (r = 0.56), respectively. Very large, positive bivariate relationships were observed between CMJ height and total ToF for both seniors (r = 0.74) and juniors (r = 0.77). Step-wise multiple regression analyses revealed CMJ F0 predicted 72% of ToF variability between seniors, and CMJ height (59%), 10 to 5 RSI (13%), and CMJ F0 (10%) predicting 82% of ToF variability between juniors. This suggests CMJ F0, lower limb maximal isometric capabilities, and CMJ height are important floor based predictors of maximal ToF in elite gymnasts. [ABSTRACT FROM AUTHOR]

Published

2023

10. Applied Bayesian structural health monitoring: Inclinometer data anomaly detection and forecasting.

Author

Green, David K. E. and Jaspan, Adam

Subjects

*STRUCTURAL health monitoring, *INCLINOMETER, *FORECASTING, *INTRUSION detection systems (Computer security), *STRUCTURAL engineering, *MARKOV processes, *DECISION making

Abstract

Inclinometer probes are devices that can be used to measure deformations within earthwork slopes. This paper demonstrates a novel application of Bayesian techniques to real‐world inclinometer data, providing both anomaly detection and forecasting. Specifically, this paper details an analysis of data collected from across the entire UK rail network. Inclinometers are a standard tool of geotechnical site monitoring. Data from these instruments is often used in risk analysis and decision‐making. However, discerning anomalous data points and forecasting future behaviour from inclinometer data requires significant 'engineering judgement' (subjective appraisal). This is because the observational data is derived from complex physical phenomena and contains complex spatio‐temporal correlations. Additionally, the practical demands of data collected from remote sites over several years tends to introduce systematic errors. These issues make the interpretation of inclinometer data challenging. Practitioners have effectively two goals when processing monitoring data. The first is to identify any anomalous or dangerous movements, and the second is to predict potential future adverse scenarios by forecasting. In this paper we apply Uncertainty Quantification (UQ) techniques by implementing a Bayesian approach to anomaly detection and forecasting for inclinometer data. Subsequently, both costs and risks may be minimised by quantifying and evaluating the appropriate uncertainties. This framework may then act as an enabler for enhanced decision making and risk analysis. We show that inclinometer data can be described by a latent autocorrelated Markov process derived from measurements. This can be used as the transition model of a non‐linear Bayesian filter. This allows for the prediction of system states. This learnt latent model also allows for the detection of anomalies: observations that are far from their expected value may be considered to have 'high surprisal', that is they have a high information content relative to the model encoding represented by the learnt latent model. We successfully apply the forecasting and anomaly detection techniques to a large real‐world data set in a computationally efficient manner. Although this paper studies inclinometers in particular, the techniques are broadly applicable to all areas of engineering UQ and Structural Health Monitoring (SHM). [ABSTRACT FROM AUTHOR]

Published

2023

11. Basic income and the labour market: Labour supply, precarious work and technological change.

Author

Green, David A.

Subjects

BASIC income, LABOR supply, TECHNOLOGICAL innovations, LABOR market, PRECARIOUS employment

Abstract

Copyright of Canadian Journal of Economics is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

12. Secretive marsh bird occupancy across a spectrum of hydroelectric reservoir management in western montane Canada.

Author

Westphal, Ashleigh M., Green, David J., Arndt, Janice E., Darvill, Rachel, and Drever, Mark C.

Subjects

*WETLANDS, *MARSHES, *WATER security, *WATER power, *FLOOD control, *BODIES of water, *BIRD conservation, *RESERVOIRS

Abstract

Dam construction projects have created opportunities for water security, targeted flood protection, and energy production but at the cost of increasing anthropogenic pressure on affected aquatic ecosystems. Wetland ecosystems are often among the most vulnerable, as underlying hydrological regimes influence overall wetland structure and function. Marsh bird species are wetland and riparian habitat specialists, many of which are experiencing population declines across North America. We examined how the alteration of hydrological regimes for generating hydroelectric power affected the occurrence of secretive marsh bird species in the western montane region of British Columbia, Canada. We established survey stations in wetlands across 2 regions, the West Kootenay and the Columbia Wetlands, sampling across a spectrum of hydrological regimes and other potentially relevant factors. At each station, we assessed wetland occupancy during the breeding season using broadcast‐callback surveys focused on 5 secretive marsh bird species: American bittern (Botaurus lentiginosus), American coot (Fulica americana), pied‐billed grebe (Podilymbus podiceps), sora (Porzana carolina), and Virginia rail (Rallus limicola). Additionally, we measured vegetation structure and the proximity and size of nearby water bodies for each survey station. We then used occupancy models to assess important correlates behind wetland occupancy for these marsh bird species, considering water management operations, regional differences, and local‐ and landscape‐level wetland characteristics. Secretive marsh bird species were more likely to occupy wetlands in areas with less frequently altered hydrological regimes. Occupancy models highlighted local‐ and landscape‐level characteristics as important correlates for wetland occupancy by marsh birds. Wetlands with frequently altered hydrological regimes had more open water cover and less tall vegetation present, conditions that were negatively associated with occupancy. Altered wetlands in this study were farther from the next nearest wetland, which was also negatively associated with occupancy. We suggest reservoir management is altering vegetation communities within these wetlands, indirectly promoting lower occupancy of secretive marsh bird species. [ABSTRACT FROM AUTHOR]

Published

2023

13. Priority research needs to inform amphibian conservation in the Anthropocene.

Author

Campbell Grant, Evan H., Amburgey, Staci M., Gratwicke, Brian, Acosta‐Chaves, Victor, Belasen, Anat M., Bickford, David, Brühl, Carsten A., Calatayud, Natalie E., Clemann, Nick, Clulow, Simon, Crnobrnja‐Isailovic, Jelka, Dawson, Jeff, De Angelis, David A., Dodd, C. Kenneth, Evans, Annette, Ficetola, Gentile Francesco, Falaschi, Mattia, González‐Mollinedo, Sergio, Green, David M., and Gamlen‐Greene, Roseanna

Subjects

INTERNET forums, AMPHIBIAN declines, AMPHIBIANS, RESEARCH questions, REPRODUCTIVE technology, GEOLOGICAL surveys

Abstract

The problem of global amphibian declines has prompted extensive research over the last three decades. Initially, the focus was on identifying and characterizing the extent of the problem, but more recently efforts have shifted to evidence‐based research designed to identify best solutions and to improve conservation outcomes. Despite extensive accumulation of knowledge on amphibian declines, there remain knowledge gaps and disconnects between science and action that hamper our ability to advance conservation efforts. Using input from participants at the ninth World Congress of Herpetology, a U.S. Geological Survey Powell Center symposium, amphibian on‐line forums for discussion, the International Union for Conservation of Nature Assisted Reproductive Technologies and Gamete Biobanking group, and respondents to a survey, we developed a list of 25 priority research questions for amphibian conservation at this stage of the Anthropocene. We identified amphibian conservation research priorities while accounting for expected tradeoffs in geographic scope, costs, and the taxonomic breadth of research needs. We aimed to solicit views from individuals rather than organizations while acknowledging inequities in participation. Emerging research priorities (i.e., those under‐represented in recently published amphibian conservation literature) were identified, and included the effects of climate change, community‐level (rather than single species‐level) drivers of declines, methodological improvements for research and monitoring, genomics, and effects of land‐use change. Improved inclusion of under‐represented members of the amphibian conservation community was also identified as a priority. These research needs represent critical knowledge gaps for amphibian conservation although filling these gaps may not be necessary for many conservation actions. [ABSTRACT FROM AUTHOR]

Published

2023

14. Depressional runoff cascade networks of the Des Moines Lobe of Iowa.

Author

Green, David I. S. and Crumpton, William G.

Subjects

*CASCADE connections, *RUNOFF, *LOGNORMAL distribution, *POTENTIAL flow, *ROUTING algorithms

Abstract

In this study, we develop a general mathematical framework and algorithm for routing cumulative precipitation excess through depressional fill–spill cascade networks in a landscape using only information about depression morphology, local contributing areas, and potential overland flow pathways. The framework also allows for the classification of depressions according to their landscape position within a network, and calculation of precipitation‐ and non‐precipitation‐dependent network properties, including measures of network complexity and runoff connectivity. To demonstrate its use, we applied our framework to the 167,287 drained depressions of the Des Moines Lobe of Iowa, a sub‐region of the Prairie Pothole Region of North America, over a large range of historically observed precipitation amounts for scenarios both neglecting and incorporating infiltration in runoff generation. Our results show that 85.3% of depressions in this region form 18,851 unique depressional runoff cascade networks, with the remainder being disjunct features. Most of the properties of the region's networks appear to conform to either a truncated power‐law or lognormal distribution. For a given rainfall amount, surface runoff connectivity between depressions within networks, and between networks and off‐network areas, is controlled primarily by available aggregate depressional volumetric storage and contributing area, and to a lesser degree, network complexity. [ABSTRACT FROM AUTHOR]

Published

2023

15. An integrated spatial capture–recapture approach reveals the distribution of a cryptic carnivore in a protected area.

Author

Martin, Marie E., Green, David S., Garrison, Dustin, Hartman, Jennifer, Jackson, Breeanne K., Mackey, Heather, McDonald, Mike A., Smith, B. Heath, Smith, Tessa R., Vanderzwan, Stevi L., Stock, Sarah L., Sacks, Benjamin N., and Matthews, Sean M.

Subjects

PROTECTED areas, WILDLIFE conservation, ENDANGERED species, CARNIVOROUS animals, LANDSCAPE changes

Abstract

Quantifying animal abundance, density, and distributions affords the opportunity to understand the effects of landscape structure and change on species of conservation interest, but estimating these parameters can be difficult for rare and cryptic species. Noninvasive sampling methods, such as remote cameras or scat DNA, can mitigate the challenges of studying rare and cryptic species while also minimizing effects on species of conservation interest or concern. Data derived from these methods can be integrated into robust, contemporary quantitative methods, including spatial capture–recapture (SCR) models, which provide a hierarchical framework for jointly estimating animal abundance, distribution, and, consequently, density. Herein, we developed an integrated SCR model to estimate the abundance, density, and distribution of a large carnivore of conservation interest, the cougar (Puma concolor), in a rugged and remote protected area, Yosemite National Park, California, USA. We combined spatial encounter data from DNA‐based individual identification of scats with detection count data derived from remote cameras to estimate cougar density and detection probability in Yosemite. We further estimated how cougar density and detection probability varied as a result of vegetation, topography, anthropogenic and natural linear features, and survey effort. Using data collected in 2019 and 2020, we estimated a median of 31 (SD = 3.96, 95% credible intervals = 24–39) cougars in Yosemite across the two years, with higher densities associated with productive, vegetated areas. We found detection probability by scent detection teams was higher for females than males and positively correlated with survey effort, proximity to trails, and distance farther from roads and streams. Our study illustrates the utility of noninvasive survey methods that yield individual identities in rugged and remote environments, where capture and handling of cryptic, low‐density animals is logistically challenging and cost prohibitive. Integrated modeling approaches, as used here, allow ecologists to leverage empirical data using a robust quantitative framework that can effectively address conservation objectives. Through this work, we demonstrate the importance of large, contiguous, and heterogeneous ecosystems to the ecology of wide‐ranging species that occur in dynamic landscapes. [ABSTRACT FROM AUTHOR]

Published

2023

16. Inter‐annual variation in amphibian larval interspecies interactions.

Author

Ford, Jessica and Green, David M.

Subjects

*AMPHIBIANS, *COMMUNITIES, *TOADS, *TADPOLES, *SPECIES, *METAMORPHOSIS

Abstract

The outcomes of species interactions can vary by life stage, year, and surrounding environmental conditions. Amphibian species are expected to compete most strongly during their tadpole stage when they exist in the highest densities. Changes in arrival timing, surrounding aquatic communities, and yearly conditions could all affect the outcome of larval competition. In Long Point, Ontario, the Fowler's toad (Anaxyrus fowleri) is at the northern edge of its range and overlaps with the more common American toad (Anaxyrus americanus). Both species breed in ponds that encounter high inter‐annual variation. To determine whether these species compete strongly, and if this effect was replicated across multiple years, we raised both species as tadpoles together and, apart, in mesocosms in 2018 and 2021. We measured survivorship to, weight at, and time to metamorphosis for both species in both years. We determined that the presence of American toad tadpoles consistently had a detrimental effect on Fowler's toad tadpoles, even though this effect presented itself differently across years. Our study suggests that competitive exclusion by American toads could be occurring at the edge of the Fowler's toad's range. This study further demonstrates the importance of studying communities across multiple years to understand the full scope of species interactions. [ABSTRACT FROM AUTHOR]

Published

2023

17. Current and future carbon stocks in coastal wetlands within the Great Barrier Reef catchments

Author

Duarte de Paula Costa, Micheli, Lovelock, Catherine E., Waltham, Nathan J., Young, Mary, Adame, María Fernanda, Bryant, Catherine V., Butler, Don, Green, David, Rasheed, Michael A., Salinas, Cristian, Serrano, Oscar, York, Paul H., Whitt, Ashley A., Macreadie, Peter I., Duarte de Paula Costa, Micheli, Lovelock, Catherine E., Waltham, Nathan J., Young, Mary, Adame, María Fernanda, Bryant, Catherine V., Butler, Don, Green, David, Rasheed, Michael A., Salinas, Cristian, Serrano, Oscar, York, Paul H., Whitt, Ashley A., and Macreadie, Peter I.

Abstract

Australia's Great Barrier Reef (GBR) catchments include some of the world's most intact coastal wetlands comprising diverse mangrove, seagrass and tidal marsh eco systems. Although these ecosystems are highly efficient at storing carbon in marine sediments, their soil organic carbon (SOC) stocks and the potential changes resulting from climate impacts, including sea level rise are not well understood. For the first time, we estimated SOC stocks and their drivers within the range of coastal wet lands of GBR catchments using boosted regression trees (i.e. a machine learning ap proach and ensemble method for modelling the relationship between response and explanatory variables) and identified the potential changes in future stocks due to sea level rise. We found levels of SOC stocks of mangrove and seagrass meadows have different drivers, with climatic variables such as temperature, rainfall and solar radiation, showing significant contributions in accounting for variation in SOC stocks in mangroves. In contrast, soil type accounted for most of the variability in seagrass meadows. Total SOC stock in the GBR catchments, including mangroves, seagrass meadows and tidal marshes, is approximately 137 Tg C, which represents 9%–13% of Australia's total SOC stock while encompassing only 4%–6% of the total extent of Australian coastal wetlands. In a global context, this could represent 0.5%–1.4% of global SOC stock. Our study suggests that landward migration due to projected sea level rise has the potential to enhance carbon accumulation with total carbon gains between 0.16 and 0.46 Tg C and provides an opportunity for future restoration to enhance blue carbon.

Published

2022

18. Poorly drained depressions can be hotspots of nutrient leaching from agricultural soils.

Author

Hall, Steven J., Tenesaca, Carlos G., Lawrence, Nathaniel C., Green, David I. S., Helmers, Matthew J., Crumpton, William G., Heaton, Emily A., and VanLoocke, Andy

Published

2023

19. Satellite telemetry reveals habitat selection decisions by black oystercatchers across seasonal, diel, and tidal cycles.

Author

Ware, Lena, Hipfner, John Mark, and Green, David J.

Subjects

PREDATION, SATELLITE telemetry, HABITAT selection, CIRCADIAN rhythms, SHORELINES, ISLANDS, SEASONS, COASTS

Abstract

Habitat use of indicator species is used to prioritize management activities. However, habitat use can vary temporally in response to changes in predation risk and foraging rewards. We deployed satellite tags on 20 black oystercatchers (Haematopus bachmani) in four regions of British Columbia, Canada, to examine habitat use and selection decisions across seasonal, diel and tidal cycles. We characterized the shoreline in each region and used GLMMs to investigate how habitat characteristics influenced shoreline use by tracked birds. For individuals, we estimated home range size and the frequency key features of the shoreline were re‐visited. Black oystercatchers generally made greater‐than‐expected use of rocky islets and shoreline with freshwater outflows, less tree cover and greater intertidal area. However, while black oystercatchers preferred islets and shoreline with less tree cover at most/all time periods, they only exhibited preferences for greater intertidal area during low tides, and preferences for shoreline with freshwater outflows during the nonbreeding season, day, and high tides. Individual home ranges, on average, contained 46 km of shoreline (range: 12–156 km) and individuals used 10.4 km (range: 6.7–13.9 km). Individuals made greater use of larger islets with less tree cover that were closer to outflows, and greater use of outflows associated with larger streams, greater intertidal areas and gravel substrates. Black oystercatchers' habitat preferences likely reduce predation risk (rocky islets and shoreline with less tree cover) and increase foraging rewards (shoreline with freshwater outflows, greater intertidal area, and gravel substrates). However, habitat preferences appear sensitive to constraints on movement in the breeding season and changes in foraging rewards across the diel and tidal cycle, highlighting the importance of examining habitat use at multiple temporal scales. Black oystercatchers are considered indicators of rocky intertidal health; therefore, critical habitat is expected to be important for a suite of wildlife dependent on safe and productive coastline. [ABSTRACT FROM AUTHOR]

Published

2023

20. Effects of catheter ablation of atrial fibrillation on the biomarker profile.

Author

Goldberger, Jeffrey J., Green, David, Rabbat, Firas, Ringwala, Sukit, Andrei, Adin‐Cristian, Xu, Yao, and Passman, Rod

Subjects

*ATRIAL fibrillation treatment, *BIOMARKERS, *CATHETER ablation, *DISEASE relapse, *PRE-tests & post-tests, *DESCRIPTIVE statistics

Abstract

Background: Following catheter ablation for atrial fibrillation (AF), there are dynamic changes in the atrial myocardium associated with damage to and necrosis of atrial tissue and other procedure related changes in rhythm and anticoagulation. Early time‐dependent changes in biomarkers of necrosis, inflammation, and coagulation have been reported. This study examines mid‐term (4–8 weeks post‐ablation) changes in biomarkers and explores their ability to predict AF recurrence at one‐year. Methods: Twenty‐seven patients (mean age 65.4 ± 9.7 years, 30% female) undergoing catheter ablation for AF had peripheral venous blood samples obtained at the time of ablation and 4–8 weeks later. All samples were processed to obtain plasma which was frozen for subsequent analysis. Coagulation studies were performed at the Northwestern Special Hemostasis Laboratory: VWF, ADAMTS13, PAI‐1, D‐dimer, and TAT complexes. A commercial lab analyzed samples for CRP, cystatin C, fibrinogen, galectin, IL‐6, MMP‐2, myoglobin, NT‐proBNP, PAI‐1, TIMP‐1, TIMP‐2, TPA, and VWF. Results: Significant changes were noted with higher levels of ADAMTS13 (p < 0.0001), fibrinogen (p = 0.004), MMP‐2 (p = 0.0002), TIMP‐2 (p = 0.003), and TPA (p = 0.001) compared to lower levels of TAT (p < 0.0001) and NT‐proBNP (p = 0.0001) at follow up post‐ablation. One year after ablation, AF had recurred in 11/26 (42%) of patients. None of the biomarker changes predicted the 1‐year outcome, and there was no significant association with the use of warfarin versus rivaroxaban. Conclusion: In patients undergoing catheter ablation for AF, there were significant changes in pre‐ vs post‐ablation levels of multiple biomarkers. However, these changes were not associated with 1‐year outcome of AF recurrence. [ABSTRACT FROM AUTHOR]

Published

2023

21. Potential for redistribution of post‐moult habitat for Eudyptes penguins in the Southern Ocean under future climate conditions.

Author

Green, Cara‐Paige, Green, David B., Ratcliffe, Norman, Thompson, David, Lea, Mary‐Anne, Baylis, Alastair M. M., Bond, Alexander L., Bost, Charles‐André, Crofts, Sarah, Cuthbert, Richard J., González‐Solís, Jacob, Morrison, Kyle W., Poisbleau, Maud, Pütz, Klemens, Rey, Andrea Raya, Ryan, Peter G., Sagar, Paul M., Steinfurth, Antje, Thiebot, Jean‐Baptiste, and Tierney, Megan

Subjects

*EFFECT of human beings on climate change, *OCEAN temperature, *MARINE biomass, *PENGUINS, *HABITAT selection, *WINTER

Abstract

Anthropogenic climate change is resulting in spatial redistributions of many species. We assessed the potential effects of climate change on an abundant and widely distributed group of diving birds, Eudyptes penguins, which are the main avian consumers in the Southern Ocean in terms of biomass consumption. Despite their abundance, several of these species have undergone population declines over the past century, potentially due to changing oceanography and prey availability over the important winter months. We used light‐based geolocation tracking data for 485 individuals deployed between 2006 and 2020 across 10 of the major breeding locations for five taxa of Eudyptes penguins. We used boosted regression tree modelling to quantify post‐moult habitat preference for southern rockhopper (E. chrysocome), eastern rockhopper (E. filholi), northern rockhopper (E. moseleyi) and macaroni/royal (E. chrysolophus and E. schlegeli) penguins. We then modelled their redistribution under two climate change scenarios, representative concentration pathways RCP4.5 and RCP8.5 (for the end of the century, 2071–2100). As climate forcings differ regionally, we quantified redistribution in the Atlantic, Central Indian, East Indian, West Pacific and East Pacific regions. We found sea surface temperature and sea surface height to be the most important predictors of current habitat for these penguins; physical features that are changing rapidly in the Southern Ocean. Our results indicated that the less severe RCP4.5 would lead to less habitat loss than the more severe RCP8.5. The five taxa of penguin may experience a general poleward redistribution of their preferred habitat, but with contrasting effects in the (i) change in total area of preferred habitat under climate change (ii) according to geographic region and (iii) the species (macaroni/royal vs. rockhopper populations). Our results provide further understanding on the regional impacts and vulnerability of species to climate change. [ABSTRACT FROM AUTHOR]

Published

2023

22. Dispersal without drivers: Intrinsic and extrinsic variables have no impact on movement distances in a terrestrial amphibian.

Author

Jreidini, Nathalie and Green, David M.

Subjects

*PERSONALITY tests, *AMPHIBIANS, *BODY size, *TOADS, *SHORELINES

Abstract

Dispersive movements are often thought to be multicausal and driven by individual body size, sex, conspecific density, environmental variation, personality, and/or other variables. Yet such variables often do not account for most of the variation among dispersive movements in nature, leaving open the possibility that dispersion may be indeterministic. We assessed the amount of variation in 24 h movement distances that could be accounted for by potential drivers of displacement with a large empirical dataset of movement distances performed by Fowler's Toads (Anaxyrus fowleri) on the northern shore of Lake Erie at Long Point, Ontario (2002–2021, incl.). These toads are easy to sample repeatedly, can be identified individually and move parallel to the shoreline as they forage at night, potentially dispersing to new refuge sites. Using a linear mixed‐effect model that incorporated random effect terms to account for sampling variance and inter‐annual variation, we found that all potential intrinsic and extrinsic drivers of movement accounted for virtually none of the variation observed among 24 h distances moved by these animals, whether over short or large spatial scales. We examined the idea of movement personality by testing variance per individual toad and found no evidence of individuality in movement distances. We conclude that deterministic variables, whether intrinsic or extrinsic, neither can be shown to nor are necessary to drive movements in this population over all spatial scales. Stochastic, short time‐scale movements, such as daily foraging movements, can instead accumulate over time to produce large spatial‐scale movements that are dispersive in nature. [ABSTRACT FROM AUTHOR]

Published

2022

23. Sensory Evaluation of Fish Freshness and Eating Qualities

Author

Green, David P., primary

Published

2010

24. Persistence of Ad26.COV2.S‐associated vaccine‐induced immune thrombotic thrombocytopenia (VITT) and specific detection of VITT antibodies.

Author

Kanack, Adam J., Singh, Bandana, George, Gemlyn, Gundabolu, Krishna, Koepsell, Scott A., Abou‐Ismail, Mouhamed Yazan, Moser, Karen A., Smock, Kristi J., Green, David, Major, Ajay, Chan, Clarence W., Wool, Geoffrey D., Reding, Mark, Ashrani, Aneel A., Bayas, Antonios, Grill, Diane E., and Padmanabhan, Anand

Published

2022

25. Heavy Precipitation Impacts on Nitrogen Loading to the Gulf of Mexico in the 21st Century: Model Projections Under Future Climate Scenarios.

Author

Zhang, Jien, Lu, Chaoqun, Crumpton, William, Jones, Christopher, Tian, Hanqin, Villarini, Gabriele, Schilling, Keith, and Green, David

Subjects

IMPACT loads, TWENTY-first century, ALLUVIAL plains, PRODUCTION management (Manufacturing), WATERSHEDS

Abstract

While spatial heterogeneity of riverine nitrogen (N) loading is predominantly driven by the magnitude of basin‐wide anthropogenic N input, the temporal dynamics of N loading are closely related to the amount and timing of precipitation. However, existing studies do not disentangle the contributions of heavy precipitation versus non‐heavy precipitation predicted by future climate scenarios. Here, we explore the potential responses of N loading from the Mississippi Atchafalaya River Basin to precipitation changes using a well‐calibrated hydro‐ecological model and Coupled Model Intercomparison Project Phase 5 climate projections under two representative concentration pathway (RCP) scenarios. With present agricultural production and management practices, N loading could increase up to 30% by the end of the 21st century under future climate scenarios, half of which would be driven by heavy precipitation. Particularly, the RCP8.5 scenario, in which heavy precipitation and drought events become more frequent, would increase N loading disproportionately to projected increases in river discharge. N loading in spring would contribute 41% and 51% of annual N loading increase under the RCP4.5 and RCP8.5 scenarios, respectively, most of which is related to higher N yield due to increases in heavy precipitation. Anthropogenic N inputs would be increasingly susceptible to leaching loss in the Midwest and the Mississippi Alluvial Plain regions. Our results imply that future climate change alone, including more frequent and intense precipitation extremes, would increase N loading and intensify the eutrophication of the Gulf of Mexico over this coming century. More effective nutrient management interventions are needed to reverse this trend. Plain Language Summary: Future climate change is expected to alter nutrient transport from land to rivers, which will have impacts on coastal ecosystems. The impacts of future precipitation changes on nitrogen (N) loading, however, remain unclear. Based upon a well‐tested hydro‐ecological model, this study separates the roles of future heavy precipitation, non‐heavy precipitation, and no‐precipitation days in affecting N leaching loss and predicts the changes in N loading to the Gulf of Mexico. N loading is projected to increase by 30% under two climate scenarios (RCP4.5 and RCP8.5) by the end of the 21st century, half of which is likely driven by heavy precipitation. Future increases in spring heavy precipitation likely result in higher N leaching loss and enhance N loading. Our results indicate that more effective nutrient reduction efforts will be needed to reach the reduction goals of N loading and hypoxia extent in the Gulf of Mexico. Key Points: We examine the responses of nitrogen (N) loading from the Mississippi Atchafalaya River Basin (MARB) to future climate changesN loading from the MARB could increase by 30% under future climate scenarios, and half of the increase would be driven by heavy precipitationAnthropogenic N input would be increasingly susceptible to leaching loss in the Midwest and Mississippi Alluvial Plain under future climate [ABSTRACT FROM AUTHOR]

Published

2022

26. Greater decrements in neuromuscular function following interval compared to continuous eccentric cycling.

Author

Green, David James, Thomas, Kevin, and Howatson, Glyn

Subjects

*EXPERIMENTAL design, *MUSCLE contraction, *NEUROPHYSIOLOGY, *SKELETAL muscle, *ANALYSIS of variance, *EXERCISE physiology, *NEUROMUSCULAR system, *CYCLING, *DESCRIPTIVE statistics, *DATA analysis software

Abstract

Our aim was to determine the demands and consequences of a single session of continuous (CONT) or interval (INT) eccentric cycling. Fourteen healthy males performed 'work-matched' CONT and INT eccentric cycling in a cross over design. Measures of maximal voluntary contraction (MVC), resting twitch force, voluntary activation (VA), muscle soreness and creatine kinase (CK) were taken at baseline, immediately post, and 24, 48 and 72 h post the first exercise bout. The second bout was used to characterise within session demands. Decreases in MVC (INT 19%, CONT 13%), twitch force (INT 31%, CONT 18%), and VA (INT 10%, CONT 6%) were observed immediately post session (p < 0.05). Reductions in twitch force were greater after INT (p < 0.05) and lasted 48 h. Muscle soreness was greater following INT, versus CONT (p < 0.05), although no differences in CK were observed. Metabolic demands (% of V̇O2peak and [BLa]) were greater during INT vs. CONT (32 ± 6% 28 ± 6%; p < 0.001), [BLa] (1.0 ± 0.4 vs. 0.8 ± 0.2 mmol·L−1;p < 0.001) and RPE (12 ± 1 vs. 11 ± 1; p < 0.001), respectively. Total time under tension was 48% greater in CONT compared to INT (p < 0.001), whereas average torque (during exercise) was 40% greater during INT compared to CONT (p < 0.001). Interval eccentric cycling exacerbates muscle soreness, decrements in muscle function and lengthens recovery compared to a work matched continuous bout, which is attributable to increased force rather than time under tension. [ABSTRACT FROM AUTHOR]

Published

2022

27. The spatial overlap of small‐scale cannabis farms with aquatic and terrestrial biodiversity.

Author

Parker‐Shames, Phoebe, Choi, Christopher, Butsic, Van, Green, David, Barry, Brent, Moriarty, Katie, Levi, Taal, and Brashares, Justin S.

Subjects

AQUATIC biodiversity, CANNABIS (Genus), RIPARIAN areas, AQUATIC exercises, COHO salmon, REMOTE-sensing images, WEED competition

Abstract

The rapid expansion of cannabis agriculture in the Western United States provides a rare opportunity to study how an abrupt change in land‐use policy affects local biodiversity. There is broad speculation that cannabis production on private land is expanding and having negative effects on aquatic and terrestrial ecosystems, yet there exist little empirical data to evaluate this concern. In this study, we mapped and characterized outdoor cannabis production during the first season of legal recreational production (2016) in a large legacy cannabis‐producing region of Southern Oregon, Josephine County. We descriptively compared cannabis farms to all available private parcels based on proximity to rivers/streams and undeveloped land and their overlap with carnivore richness. Using publicly available satellite imagery, we found approximately 1.34 km2 (331 acres) of cannabis cultivation within Josephine County during the first season of legal recreational production. Most cannabis production areas were small (median size 414 m2), spatially clustered at all observed scales, and recently established (67% were not visible in 2013–2014 pre‐legalization). When compared with all available private parcels, cannabis was preferentially located in forested areas, undeveloped land and slightly closer to rivers. Within riparian areas, farms were slightly closer to rivers with predicted occurrence of coho salmon (Oncorhynchus kisutch). While projected carnivore richness was similar between cannabis and all private parcels, projected fisher (Pekania pennanti) occupancy was more than five times higher on cannabis farms, with a median occupancy of 0.69 (interquartile range: 0.24–0.87). Our results establish a baseline for cannabis land cover at the time of early recreational legalization and rapid expansion and can be used to predict future patterns or ecological consequences of cannabis development in other production areas. Understanding the potential ecological impact of cannabis is increasingly important as legalization expands and may also offer insights into other rural land‐use change frontiers. [ABSTRACT FROM AUTHOR]

Published

2022

28. The distribution of COVID‐19–related risks.

Author

Baylis, Patrick, Beauregard, Pierre‐Loup, Connolly, Marie, Fortin, Nicole M., Green, David A., Gutiérrez‐Cubillos, Pablo, Gyetvay, Samuel, Haeck, Catherine, Molnár, Tímea Laura, Simard‐Duplain, Gaëlle, Siu, Henry E., teNyenhuis, Maria, and Warman, Casey

Subjects

TELECOMMUTING, EMPLOYMENT statistics, GOVERNMENT shutdown

Abstract

Copyright of Canadian Journal of Economics is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

29. Muscle attachment sites and behavioral reconstruction: An experimental test of muscle‐bone structural response to habitual activity.

Author

Turcotte, Cassandra M., Rabey, Karyne N., Green, David J., and McFarlin, Shannon C.

Subjects

ANTHROPOLOGY, ANIMAL models in research, BEHAVIOR modification, ANTHROPOLOGICAL illustration, HUMERUS

Abstract

Objective: Behavioral reconstruction from muscle attachment sites (entheses) is a common practice in anthropology. However, experimental evidence provides mixed support for the assumed association between enthesis size and shape with changes in habitual activity. In this study, a laboratory mouse model was used to experimentally test whether activity level and type alters muscle architecture and the underlying bone cross‐sectional geometry of entheses in order to assess the underlying assumption that behavioral changes lead to quantifiable differences in both muscle and enthesis morphology. Materials and Methods: Female wild‐type mice were separated into one control group and two experimentally increased activity groups (running, climbing) over an 11‐week study period. At the start of the experiment, half of the mice were 4 weeks and half were 7 weeks of age. The postmortem deltoideus and biceps brachii muscles were measured for potential force production (physiological cross‐sectional area) and potential muscle excursion (fiber length). Bone cross‐sectional geometry variables were measured from microCT scans of the humerus and radius at the enthesis and non‐enthesis regions of interest across activity groups. Results: Activity level and type altered potential force production and potential muscle excursion of both muscles in the younger cohort. We observed differences in cortical bone geometry in both the humerus enthesis and radius non‐enthesis region driven exclusively among the younger wheel‐running mice. Discussion: These results indicate that in addition to muscle architectural changes, bone structural properties at the enthesis do show an adaptive response to increased activity, such as running but only during earlier development. However, further research is required in order to apply these findings to the reconstruction of living behavior from anthropological specimens. [ABSTRACT FROM AUTHOR]

Published

2022

30. Mixed‐severity wildfire and salvage logging affect the populations of a forest‐dependent carnivoran and a competitor.

Author

Green, David S., Martin, Marie E., Powell, Roger A., McGregor, Eric L., Gabriel, Mourad W., Pilgrim, Kristine L., Schwartz, Michael K., and Matthews, Sean M.

Subjects

SALVAGE logging, WILDFIRE prevention, WILDFIRES, FIREFIGHTING, BODY size, COMPETITION (Biology)

Abstract

Effects of historical fire suppression in forested ecosystems, combined with increasingly frequent and prolonged periods of drought due to a changing climate, are predicted to drive increases in the extent and intensity of wildfires in western North America and elsewhere. Understanding the effects of wildfires on forest‐dependent species and interactions among species is important for conservation and management decisions. We used data collected from a long‐term carnivore monitoring program in northern California and southern Oregon, USA to investigate the effects of three mixed‐severity wildfires and salvage logging on a population of fishers (Pekania pennanti), forest‐dependent carnivoran of conservation concern, and a co‐occurring population of gray foxes (Urocyon cinereoargenteus), a competitor of similar body size. We developed a spatial capture‐recapture population model to estimate the short‐term effects of the wildfires and salvage logging on fisher and gray fox abundances, distributions, apparent survival and recruitment, and species interactions using non‐invasive genetic data collected three years prior to and three years following wildfires. Fisher abundance decreased significantly in areas of low‐, medium‐, and high‐severity wildfire. Gray fox abundance decreased in the years before the wildfires, but rebounded in subsequent years. Medium‐severity wildfire had a negative effect on gray fox density, but high‐severity wildfire and fisher density had positive effects on gray fox density. Salvage logging had negative effects on both fisher and gray fox density. Our results suggest that increased severity, extent, and frequency of wildfires in the western USA will affect fisher populations negatively and alter the composition of mesocarnivoran communities. [ABSTRACT FROM AUTHOR]

Published

2022

31. Integrating multi‐method surveys and recovery trajectories into occupancy models.

Author

Barry, Brent R., Moriarty, Katie, Green, David, Hutchinson, Rebecca A., and Levi, Taal

Subjects

WILDLIFE management, DETECTOR dogs, WILDLIFE conservation, ECOLOGICAL regions, OLD growth forests, URBAN growth

Abstract

Conservation and management of animal populations requires knowledge of their occurrence and drivers that influence their distribution. Noninvasive survey methods and occupancy models to account for imperfect detection have become the standard tools for this purpose. Simultaneously addressing both occurrence and occurrence–environment relationships, however, presents multiple challenges, particularly for species with reduced ranges or those recovering from historical declines. Here, we present a comprehensive framework to satisfy the assumption of organism–environment equilibrium, map the range of a species, incorporate camera traps and detection dogs as complementary data sources, and make inference about wildlife space use at multiple scales. To meet these goals, we developed a Bayesian spatial occupancy model for Pacific fishers (Pekania pennanti) in Oregon using data from a large‐scale (64,280 km2) empirical effort combining 1240 camera traps (74,219 trap nights) and 196 detector dog surveys (3 × 3 km units, survey average = 17.3 km/unit). We deployed this model with and without a geoadditive term to improve predicted range map generation and covariate inference, respectively. We used reaction–diffusion models to project recovery trajectories to determine both plausible spatial extents for inclusion in our occupancy model and whether the current distribution can be explained by time‐limited population expansion from historical refugia. To assess nonstationary effects where species–habitat relationships vary spatially, we fit separate models within distinct ecological regions. We confirmed the presence of the native and introduced fisher populations, but populations occupy less area than previously believed. The spatial extent of the introduced population was less than expected except under our lowest growth model, suggesting limiting factors were preventing population expansion. The native population extent matched expectations under several growth scenarios, suggesting that the contemporary distribution is plausibly due to time‐limited expansion. The relationship of fisher occupancy to environmental covariates varied with scale, spatial extent, and ecological region, but fishers consistently selected for old forests at fine spatial scales in the detection model across spatial extents and detection modalities. Collectively, we provide an integration of camera traps and detection dogs into spatial occupancy models and demonstrate how to generate plausible spatial extents to improve inferences for species recovering from range contractions. [ABSTRACT FROM AUTHOR]

Published

2021

32. Health care in police watch‐houses: a challenge and an opportunity.

Author

Crilly, Julia L, Brandenburg, Caitlin, Kinner, Stuart A, Heffernan, Ed, Byrnes, Joshua, Lincoln, Cathy, Gardiner, Paul, Davidson, Peter, Somerville, Annabel, Wilson, Daniel, Green, David, and Thomas, Stuart

Abstract

Although evidence-based guidelines exist to inform health care delivery in prison settings, 21,22 there is limited evidence to guide health care management for detainees in police watch-houses. Keywords: Emergency medical services; Prison; Health policy; Health systems; Public health EN Emergency medical services Prison Health policy Health systems Public health 287 289 3 09/20/22 20220915 NES 220915 Police watch-house detainees have complex health needs that involve multiple agencies and require coordinated, interagency solutions Police watch-houses (Queensland term) are buildings designed "for the temporary holding of prisoners before prisoners are released or transferred to a corrective services facility or detention centre".1 They may also be used to hold people who are intoxicated, appear mentally ill, or are awaiting trial.2 Watch-houses are also referred to as police cells, station cells, lock-ups, holding cells, jails, and custody suites in other Australian jurisdictions and countries. Consistent with World Health Organization recommendations for prisons,21 models of health care in watch-houses should be closely linked with public health services and, ideally, administered by a health care agency rather than the police service. Health-care issues and health-care use among detainees in police custody. [Extracted from the article]

Published

2022

33. Current and future carbon stocks in coastal wetlands within the Great Barrier Reef catchments.

Author

Duarte de Paula Costa, Micheli, Lovelock, Catherine E., Waltham, Nathan J., Young, Mary, Adame, Maria F., Bryant, Catherine V., Butler, Don, Green, David, Rasheed, Michael A., Salinas, Cristian, Serrano, Oscar, York, Paul H., Whitt, Ashley A., and Macreadie, Peter I.

Subjects

COASTAL wetlands, WETLAND soils, REEFS, SALT marshes, SEAGRASSES, MARINE sediments

Abstract

Australia's Great Barrier Reef (GBR) catchments include some of the world's most intact coastal wetlands comprising diverse mangrove, seagrass and tidal marsh ecosystems. Although these ecosystems are highly efficient at storing carbon in marine sediments, their soil organic carbon (SOC) stocks and the potential changes resulting from climate impacts, including sea level rise are not well understood. For the first time, we estimated SOC stocks and their drivers within the range of coastal wetlands of GBR catchments using boosted regression trees (i.e. a machine learning approach and ensemble method for modelling the relationship between response and explanatory variables) and identified the potential changes in future stocks due to sea level rise. We found levels of SOC stocks of mangrove and seagrass meadows have different drivers, with climatic variables such as temperature, rainfall and solar radiation, showing significant contributions in accounting for variation in SOC stocks in mangroves. In contrast, soil type accounted for most of the variability in seagrass meadows. Total SOC stock in the GBR catchments, including mangroves, seagrass meadows and tidal marshes, is approximately 137 Tg C, which represents 9%–13% of Australia's total SOC stock while encompassing only 4%–6% of the total extent of Australian coastal wetlands. In a global context, this could represent 0.5%–1.4% of global SOC stock. Our study suggests that landward migration due to projected sea level rise has the potential to enhance carbon accumulation with total carbon gains between 0.16 and 0.46 Tg C and provides an opportunity for future restoration to enhance blue carbon. [ABSTRACT FROM AUTHOR]

Published

2021

34. Mytilus trossulus introgression and consequences for shell traits in longline cultivated mussels.

Author

Michalek, Kati, Vendrami, David L. J., Bekaert, Michaël, Green, David H., Last, Kim S., Telesca, Luca, Wilding, Thomas A., and Hoffman, Joseph I.

Subjects

GENETIC variation, SINGLE nucleotide polymorphisms, MUSSELS, MYTILUS, MUSSEL culture

Abstract

Mussels belonging to the Mytilus species complex (M. edulis, ME; M. galloprovincialis, MG; and M. trossulus, MT) often occur in sympatry, facilitating introgressive hybridization. This may be further promoted by mussel aquaculture practices, with MT introgression often resulting in commercially unfavourable traits such as low meat yield and weak shells. To investigate the relationship between genotype and shell phenotype, genetic and morphological variability was quantified across depth (1 m to 7 m) along a cultivation rope at a mussel farm on the West coast of Scotland. A single nuclear marker (Me15/16) and a novel panel of 33 MT‐diagnostic single nucleotide polymorphisms were used to evaluate stock structure and the extent of MT introgression across depth. Variation in shell strength, determined as the maximum compression force for shell puncture, and shell shape using geometric morphometric analysis were evaluated in relation to cultivation depth and the genetic profiles of the mussels. Overall, ME was the dominant genotype across depth, followed by ME × MG hybrids and smaller quantities of ME × MT hybrids and pure MT individuals. In parallel, we identified multiple individuals that were either predominantly homozygous or heterozygous for MT‐diagnostic alleles, likely representing pure MT and first‐generation ME × MT hybrids, respectively. Both the proportion of individuals carrying MT alleles and MT allele frequency declined with depth. Furthermore, MT‐introgressed individuals had significantly weaker and more elongate shells than nonintrogressed individuals. This study provides detailed insights into stock structure along a cultivation rope and suggests that practical methods to assess shell strength and shape of cultivated mussels may facilitate the rapid identification of MT, limiting the impact of this commercially damaging species. [ABSTRACT FROM AUTHOR]

Published

2021

35. Modeling Antarctic Krill Circumpolar Spawning Habitat Quality to Identify Regions With Potential to Support High Larval Production.

Author

Green, David B., Bestley, Sophie, Corney, Stuart P., Trebilco, Rowan, Lehodey, Patrick, and Hindell, Mark A.

Subjects

*EUPHAUSIA superba, *PREDATION, *FISH spawning, *SPAWNING, *SMALL-scale fisheries, *HABITATS, *FISHERIES, *EGGS as food

Abstract

Antarctic krill (krill) are important within Southern Ocean ecosystems and support an expanding fishery. Toward understanding krill's response to environmental change, it is necessary to identify regions that support high krill larval production (spawning habitat). We develop a mechanistic model combining thermal and food requirements for krill egg production, with predation pressure post‐spawning, to predict regions of high‐quality spawning habitat. We optimize our model regionally and generate circumpolar predictions of spawning habitat quality. Our results indicate the southwest Atlantic accounts for almost half of all predicted high‐quality spawning habitat. Small‐scale management units (SSMUs) around the Antarctic Peninsula had high coverage of high‐quality spawning habitat. In contrast, the remaining SSMUs (except around South Georgia) were poorly covered, suggestive of population sinks reliant on input from external sources upstream. This implies strong potential for downstream impacts of fishing in key spawning areas, with implications for management of SSMUs and the krill fishery. Plain Language Summary: Antarctic krill (krill) are a key prey item for many Southern Ocean marine predators and also support an expanding commercial fishery. However, there is a need to identify areas of the Southern Ocean that are best for both the production of eggs, and subsequent survival until free‐swimming larvae. We create a model for spawning habitat which considers the temperature and food conditions that adult female krill need to successfully produce eggs, as well as the density of predators feeding on spawned eggs. We optimize our model using existing regional‐scale data of krill eggs and larvae and use this to predict where good spawning habitat may exist around the whole Southern Ocean. Our model found that nearly half of the best spawning habitat occurs in the southwest Atlantic. Within this area, small‐scale krill fishing management areas around the Antarctic Peninsula contain good‐quality spawning habitat. Krill fished here are likely to be locally produced. But, other small‐scale management areas contain little good‐quality spawning habitat (except around South Georgia) and probably rely on krill being imported by ocean currents. This is important for understanding how fishing may impact both local ecosystems and those that are downstream. Key Points: Mechanistic model for Antarctic krill spawning habitat uses thermal and food constraints on egg production, and predation on egg survivalOptimizing from regional data we generate circumpolar predictions to show half of quality spawning habitat is in the southwest AtlanticSpatial management units for the krill fishery do not all represent optimal spawning habitat, suggesting some areas rely on recruit import [ABSTRACT FROM AUTHOR]

Published

2021

36. The effect of microgravity on the human venous system and blood coagulation: a systematic review.

Author

Kim, David S., Vaquer, Sergi, Mazzolai, Lucia, Roberts, Lara N., Pavela, James, Watanabe, Manabu, Weerts, Guillaume, and Green, David A.

Subjects

BLOOD coagulation, REDUCED gravity environments, VENOUS pressure, THROMBOEMBOLISM, SPACE flight

Abstract

New Findings: What is the central question of this study?Recently, an internal jugular venous thrombus was identified during spaceflight: does microgravity induce venous and/or coagulation pathophysiology, and thus an increased risk of venous thromboembolism (VTE)?What is the main finding and its importance?Whilst data are limited, this systematic review suggests that microgravity and its analogues may induce an enhanced coagulation state due to venous changes most prominent in the cephalad venous system, as a consequence of changes in venous flow, distension, pressures, endothelial damage and possibly hypercoagulability in microgravity and its analogues. However, whether such changes precipitate an increased VTE risk in spaceflight remains to be determined. Recently, an internal jugular venous thrombus was identified during spaceflight, but whether microgravity induces venous and/or coagulation pathophysiology, and thus, an increased risk of venous thromboembolism (VTE) is unclear. Therefore, a systematic (Cochrane compliant) review was performed of venous system or coagulation parameters in actual spaceflight (microgravity) or ground‐based analogues in PubMed, MEDLINE, Ovid EMBASE, Cochrane Library, European Space Agency, National Aeronautics and Space Administration, and Deutsches Zentrum für Luft‐und Raumfahrt databases. Seven‐hundred and eight articles were retrieved, of which 26 were included for evaluation with 21 evaluating venous, and five coagulation parameters. Nine articles contained spaceflight data, whereas the rest reported ground‐based analogue data. There is substantial variability in study design, objectives and outcomes. Yet, data suggested cephalad venous system dilatation, increased venous pressures and decreased/reversed flow in microgravity. Increased fibrinogen levels, presence of thrombin generation markers and endothelial damage were also reported. Limited human venous and coagulation system data exist in spaceflight, or its analogues. Nevertheless, data suggest spaceflight may induce an enhanced coagulation state in the cephalad venous system, as a consequence of changes in venous flow, distension, pressures, endothelial damage and possibly hypercoagulability. Whether such changes precipitate an increased VTE risk in spaceflight remains to be determined. [ABSTRACT FROM AUTHOR]

Published

2021

37. A Critical Exploration of Biological and Social Fathering Among Afro‐Caribbean Fathers.

Author

Green, David S. and Chuang, Susan S.

Subjects

FATHERS, PARENTHOOD, FATHERHOOD, FATHER-child relationship, JAMAICANS, MINORITIES

Abstract

Objective: This research explores fathers' construction of fathering to expand knowledge on the behavioral, cognitive, and affective domains of father involvement, focusing on middle childhood in ethnic minority families. Background: Fathers' contributions to children's development and socialization have received increasing attention since the 1970s. Although exploration of ethnic minority fathers has increased, the literature on ethnic and minority fathers is limited because insight into fathers living outside North America continues to be understudied. Method: This study employed a qualitative methodology from a social constructivist perspective and a bioecological model to contextualize fathering in Afro‐Jamaican families. Phenomenological thematic analysis (PTA) was used, focusing on 24 semistructured interviews from five biological and 19 biological and social Afro‐Jamaican fathers. Results: Using Palkovitz's (1997) conceptualization of fathering, including behavioral, affective, and cognitive domains, phenomenological thematic analysis was extended to include the spiritual domain. Furthermore, fathers reported being engaged with their biological and social children in similar ways. Conclusion: These findings highlight the need for researchers to explore both the universal and culturalized aspects of fathering in cultural contexts. Implications: Fathers should be supported through social policies and program intervention to encourage fathers to be involved in children's lives in multiple ways. [ABSTRACT FROM AUTHOR]

Published

2021

38. Integrating distance sampling and presence‐only data to estimate species abundance.

Author

Farr, Matthew T., Green, David S., Holekamp, Kay E., and Zipkin, Elise F.

Subjects

*NUMBERS of species, *POINT processes, *NATIONAL parks & reserves, *DISTANCES, *DATA analysis

Abstract

Integrated models combine multiple data types within a unified analysis to estimate species abundance and covariate effects. By sharing biological parameters, integrated models improve the accuracy and precision of estimates compared to separate analyses of individual data sets. We developed an integrated point process model to combine presence‐only and distance sampling data for estimation of spatially explicit abundance patterns. Simulations across a range of parameter values demonstrate that our model can recover estimates of biological covariates, but parameter accuracy and precision varied with the quantity of each data type. We applied our model to a case study of black‐backed jackals in the Masai Mara National Reserve, Kenya, to examine effects of spatially varying covariates on jackal abundance patterns. The model revealed that jackals were positively affected by anthropogenic disturbance on the landscape, with highest abundance estimated along the Reserve border near human activity. We found minimal effects of landscape cover, lion density, and distance to water source, suggesting that human use of the Reserve may be the biggest driver of jackal abundance patterns. Our integrated model expands the scope of ecological inference by taking advantage of widely available presence‐only data, while simultaneously leveraging richer, but typically limited, distance sampling data. [ABSTRACT FROM AUTHOR]

Published

2021

39. Meticulous Doxorubicin Release from pH‐Responsive Nanoparticles Entrapped within an Injectable Thermoresponsive Depot.

Author

Yu, Huayang, Ingram, Nicola, Rowley, Jason V., Green, David C., and Thornton, Paul D.

Subjects

DOXORUBICIN, DIMETHYL sulfoxide, ETHYLENE glycol, NANOPARTICLES, HIGH temperatures, THERMORESPONSIVE polymers, AQUEOUS solutions

Abstract

The dual stimuli‐controlled release of doxorubicin from gel‐embedded nanoparticles is reported. Non‐cytotoxic polymer nanoparticles are formed from poly(ethylene glycol)‐b‐poly(benzyl glutamate) that, uniquely, contain a central ester link. This connection renders the nanoparticles pH‐responsive, enabling extensive doxorubicin release in acidic solutions (pH 6.5), but not in solutions of physiological pH (pH 7.4). Doxorubicin‐loaded nanoparticles were found to be stable for at least 31 days and lethal against the three breast cancer cell lines tested. Furthermore, doxorubicin‐loaded nanoparticles could be incorporated within a thermoresponsive poly(2‐hydroxypropyl methacrylate) gel depot, which forms immediately upon injection of poly(2‐hydroxypropyl methacrylate) in dimethyl sulfoxide solution into aqueous solution. The combination of the poly(2‐hydroxypropyl methacrylate) gel and poly(ethylene glycol)‐b‐poly(benzyl glutamate) nanoparticles yields an injectable doxorubicin delivery system that facilities near‐complete drug release when maintained at elevated temperatures (37 °C) in acidic solution (pH 6.5). In contrast, negligible payload release occurs when the material is stored at room temperature in non‐acidic solution (pH 7.4). The system has great potential as a vehicle for the prolonged, site‐specific release of chemotherapeutics. [ABSTRACT FROM AUTHOR]

Published

2020

40. Effect of novel short‐arm human centrifugation‐induced gravitational gradients upon cardiovascular responses, cerebral perfusion and g‐tolerance.

Author

Laing, Charles, Green, David A., Mulder, Edwin, Hinghofer‐Szalkay, Helmut, Blaber, Andrew P., Rittweger, Joern, and Goswami, Nandu

Subjects

*PERFUSION, *BLOOD pressure, *EXERCISE physiology, *HEART beat, *CENTRIFUGATION

Abstract

Key points: The aim of this study was to determine the effect of rotational axis position (RAP and thus g‐gradient) during short‐arm human centrifugation (SAHC) upon cardiovascular responses, cerebral perfusion and g‐tolerance.In 10 male and 10 female participants, 10 min passive SAHC runs were performed with the RAP above the head (P1), at the apex of the head (P2), or at heart level (P3), with foot‐level Gz at 1.0 g, 1.7 g and 2.4 g.We hypothesized that movement of the RAP from above the head (the conventional position) towards the heart might reduce central hypovolaemia, limit cardiovascular responses, aid cerebral perfusion, and thus promote g‐tolerance.Moving the RAP footward towards the heart decreased the cerebral tissue saturation index, calf circumference and heart rate responses to SAHC, thereby promoting g‐tolerance.Our results also suggest that RAP, and thus g‐gradient, warrants further investigation as it may support use as a holistic spaceflight countermeasure. Artificial gravity (AG) through short‐arm human centrifugation (SAHC) has been proposed as a holistic spaceflight countermeasure. Movement of the rotational axis position (RAP) from above the head towards the heart may reduce central hypovolaemia, aid cerebral perfusion, and thus promote g‐tolerance. This study determined the effect of RAP upon cardiovascular responses, peripheral blood displacement (i.e. central hypovolaemia), cerebral perfusion and g‐tolerance, and their inter‐relationships. Twenty (10 male) healthy participants (26.2 ± 4.0 years) underwent nine (following a familiarization run) randomized 10 min passive SAHC runs with RAP set above the head (P1), at the apex of the head (P2), or at heart level (P3) with foot‐level Gz at 1.0 g, 1.7 g and 2.4 g. Cerebral tissue saturation index (cTSI, cerebral perfusion surrogate), calf circumference (CC, central hypovolaemia), heart rate (HR) and digital heart‐level mean arterial blood pressure (MAP) were continuously recorded, in addition to incidence of pre‐syncopal symptoms (PSS). ΔCC and ΔHR increases were attenuated from P1 to P3 (ΔCC: 5.46 ± 0.54 mm to 2.23 ± 0.42 mm; ΔHR: 50 ± 4 bpm to 8 ± 2 bpm, P < 0.05). In addition, ΔcTSI decrements were also attenuated (ΔcTSI: −2.85 ± 0.48% to −0.95 ± 0.34%, P < 0.05) and PSS incidence lower in P3 than P1 (P < 0.05). A positive linear relationship was observed between ΔCC and ΔHR with increasing +Gz, and a negative relationship between ΔCC and ΔcTSI, both independent of RAP. Our data suggest that movement of RAP towards the heart (reduced g‐gradient), independent of foot‐level Gz, leads to improved g‐tolerance. Further investigations are required to assess the effect of differential baroreceptor feedback (i.e. aortic–carotid g‐gradient). Key points: The aim of this study was to determine the effect of rotational axis position (RAP and thus g‐gradient) during short‐arm human centrifugation (SAHC) upon cardiovascular responses, cerebral perfusion and g‐tolerance.In 10 male and 10 female participants, 10 min passive SAHC runs were performed with the RAP above the head (P1), at the apex of the head (P2), or at heart level (P3), with foot‐level Gz at 1.0 g, 1.7 g and 2.4 g.We hypothesized that movement of the RAP from above the head (the conventional position) towards the heart might reduce central hypovolaemia, limit cardiovascular responses, aid cerebral perfusion, and thus promote g‐tolerance.Moving the RAP footward towards the heart decreased the cerebral tissue saturation index, calf circumference and heart rate responses to SAHC, thereby promoting g‐tolerance.Our results also suggest that RAP, and thus g‐gradient, warrants further investigation as it may support use as a holistic spaceflight countermeasure. [ABSTRACT FROM AUTHOR]

Published

2020

41. Deep learning for automated detection of Drosophila suzukii: potential for UAV‐based monitoring.

Author

Roosjen, Peter PJ, Kellenberger, Benjamin, Kooistra, Lammert, Green, David R, and Fahrentrapp, Johannes

Subjects

DROSOPHILA suzukii, DEEP learning, CONVOLUTIONAL neural networks, INTEGRATED pest control, INSECT traps, PEST control

Abstract

BACKGROUND The fruit fly Drosophila suzukii, or spotted wing drosophila (SWD), is a serious pest worldwide, attacking many soft‐skinned fruits. An efficient monitoring system that identifies and counts SWD in crops and their surroundings is therefore essential for integrated pest management (IPM) strategies. Existing methods, such as catching flies in liquid bait traps and counting them manually, are costly, time‐consuming and labour‐intensive. To overcome these limitations, we studied insect trap monitoring using image‐based object detection with deep learning. RESULTS: Based on an image database with 4753 annotated SWD flies, we trained a ResNet‐18‐based deep convolutional neural network to detect and count SWD, including sex prediction and discrimination. The results show that SWD can be detected with an area under the precision recall curve (AUC) of 0.506 (female) and 0.603 (male) in digital images taken from a static position. For images collected using an unmanned aerial vehicle (UAV), the algorithm detected SWD individuals with an AUC of 0.086 (female) and 0.284 (male). The lower AUC for the aerial imagery was due to lower image quality caused by stabilisation manoeuvres of the UAV during image collection. CONCLUSION: Our results indicate that it is possible to monitor SWD using deep learning and object detection. Moreover, the results demonstrate the potential of UAVs to monitor insect traps, which could be valuable in the development of autonomous insect monitoring systems and IPM. © 2020 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2020

42. Sequenced Somatic Cell Reprogramming and Differentiation Inside Nested Hydrogel Droplets.

Author

Green, David W., Watson, Jolanta A., Watson, Gregory S., and Stamboulis, Artemis

Subjects

SOMATIC cells, CELL differentiation, EXTRACELLULAR matrix proteins, BONE cells, GERM cells

Abstract

The efficient genesis of pluripotent cells or therapeutic cells for regenerative medicine involves several external manipulations and conditioning protocols, which drives down clinical applicability. Automated programming of the genesis by microscale physical forces and chronological biochemistry can increase clinical success. The design and fabrication of nested polysaccharide droplets (millimeter‐sized) with cell sustaining properties of natural tissues and intrinsic properties for time and space evolution of cell transformation signals between somatic cells, pluripotent cells and differentiated therapeutic cells in a swift and efficient manner without the need for laborious external manipulation are reported. Cells transform between phenotypic states by having single and double nested droplets constituted with extracellular matrix proteins and reprogramming, and differentiation factors infused chronologically across the droplet space. The cell transformation into germ layer cells and bone cells is successfully tested in vitro and in vivo and promotes the formation of new bone tissues. Thus, nested droplets with BMP‐2 loaded guests synthesize mineralized bone tissue plates along the length of a cranial non‐union bone defect at 4 weeks. The advantages of sequenced somatic cell reprogramming and differentiation inside an individual hydrogel module without external manipulation, promoted by formulating tissue mimetic physical, mechanical, and chemical microenvironments are shown. [ABSTRACT FROM AUTHOR]

Published

2020

43. Challenges and opportunities in population monitoring of cheetahs.

Author

Linden, Daniel W., Green, David S., Chelysheva, Elena V., Mandere, Salim Mandela, and Dloniak, Stephanie M.

Subjects

WILDLIFE monitoring, CHEETAH, VEGETATION greenness, WILDLIFE management, NATIONAL parks & reserves, WILDLIFE conservation, IMPRESSION management

Abstract

Population monitoring is key to wildlife conservation and management but is challenging at the spatial and temporal extents necessary for understanding changes. Noninvasive survey methods and spatial capture–recapture (SCR) models have revolutionized wildlife monitoring by providing the means to acquire data at large scales and the framework to generate spatially explicit predictions, respectively. Despite opportunities for improved monitoring, challenges can remain in the study design and model fitting phases of an SCR approach. Here, we used a search‐encounter design with multi‐session SCR models to collect spatially indexed photographs and estimate changes in density of cheetahs between 2005 and 2013–2016 in the Masai Mara National Reserve (MMNR) in Kenya. Our SCR models of cheetah encounters suggested little change in cheetah density from 2005 to 2013–2016, with some evidence that density fluctuated annually in the MMNR. The sampling period length (5 vs. 10 months) and timing (early, late, full year) over which spatial encounters were modeled did not alter inferences about density when sample sizes were adequate (>20 spatially distinct encounters). Our average density estimate of ~1.2 cheetahs/100 km2 is consistent with the impression that the MMNR provides important cheetah habitat in Africa. During most years, spatial distribution of vegetation greenness (proxy for ungulate habitat quality) accounted for important variation in encounter rates. The search‐encounter design here could be applied to other regions for cheetah monitoring. While snapshot estimates of population size across time are useful for wildlife monitoring, open population models may better identify the mechanisms behind temporal changes. [ABSTRACT FROM AUTHOR]

Published

2020

44. Latitudinal gradients in some, but not all, avian life history traits extend into the Arctic.

Author

Martin, Michaela, Drake, Anna, Rock, Christine A., and Green, David J.

Subjects

LIFE history theory, ANIMAL clutches, LATITUDE, WARBLERS, BIRD ecology

Abstract

Latitudinal variation in avian life history strategies is well documented. Clutch size and nest success tend to increase with latitude, whereas longevity and developmental periods have been argued to decrease with latitude. However, these patterns are largely based on interspecific comparisons of species breeding at tropical and temperate latitudes. We compared the life history of Yellow Warblers Setophaga petechia breeding in arctic habitat at the northern extent of their range, in Inuvik, NWT (68°N), Canada, with those breeding in temperate habitat in Revelstoke, BC (50°N), and use data from 21 populations spanning 0–68°N to evaluate latitudinal trends in life history traits from tropical to arctic habitats. Females breeding in Inuvik laid first clutches that were slightly (although not significantly) larger and had higher nest success, which resulted in higher annual productivity compared with their low‐ latitude counterparts. Apparent adult survival rates were only marginally lower in Inuvik than in Revelstoke, whereas incubation and nestling periods in the arctic were similar to our temperate site. When comparing life history traits across the Yellow Warbler breeding range, we observed increases in clutch sizes and nest success with increasing latitude that appeared to be associated with declines in adult survival, though this relationship was weakened by the addition of our arctic site. We detected more moderate declines in incubation and nestling periods with increasing latitude. As we observed latitudinal variation in some life history traits, but not a consistent transition of traits associated with a shift from a slow to fast life history from tropical to arctic latitudes, our study suggests that the expectation for a general shift in life history traits may be over‐simplified. [ABSTRACT FROM AUTHOR]

Published

2020

45. Elevated activity levels do not influence extrinsic fiber attachment morphology on the surface of muscle‐attachment sites.

Author

Turcotte, Cassandra M., Green, David J., Kupczik, Kornelius, McFarlin, Shannon, and Schulz‐Kornas, Ellen

Subjects

*SURFACE morphology, *BICEPS brachii, *PERIODONTAL ligament, *BONES, *FIBERS, *LIGAMENTS, *ALVEOLAR process

Abstract

Extrinsic fibers (EFs) are a type of penetrating collagenous fiber, closely related to the periodontal ligament, which help anchor soft tissue into bone. These fibers are associated with muscle attachment sites (entheses). Their size and grouping patterns are thought to be indicative of the loading history of the muscle. EFs are of particular significance in anthropology as potential tools for the reconstruction of behavior from skeletal remains and, specifically, entheses. In this study, we used a mouse model to experimentally test how activity level alters the morphology of EF insertion sites on the bone surface of a fibrocartilaginous enthesis, the biceps brachii insertion. Further, we adapted surface metrological techniques from studies of dental wear to perform automated, quantitative and non‐destructive analysis of bone surface histology. Our results show that experimentally increased activity had no significant effect on the quantity or density of EF insertions at the enthesis, nor on the size of those insertions. Although EF presence does indicate muscle attachment, activity did not have an observable effect on EF morphology. [ABSTRACT FROM AUTHOR]

Published

2020

46. Water quality performance of wetlands receiving nonpoint‐source nitrogen loads: Nitrate and total nitrogen removal efficiency and controlling factors.

Author

Crumpton, William G., Stenback, Greg A., Fisher, Stephen W., Stenback, Jana Z., and Green, David I. S.

Subjects

WETLAND restoration, WETLANDS, WATER quality, NITRATES, HYPOXIA (Water), NITROGEN, WEATHER

Abstract

Nonpoint‐source nitrogen (N) loads in the U.S. Corn Belt are a major concern both for local impacts on receiving waters and for contributing to hypoxia in the Gulf of Mexico. Nonpoint‐source nutrient loads can be ameliorated by a combination of in‐field and offsite practices, and wetland restoration is a particularly promising approach for reducing N loads from agricultural drainage. However, there is considerable variability among wetlands, and adequate performance data are available for relatively few systems receiving unregulated nonpoint‐source loads. We measured N mass balances of 26 restored wetlands receiving a wide range of unregulated, naturally varying hydraulic and nutrient loads to evaluate the N removal performance of these systems and the effects of major factors controlling their performance. Nitrogen loads were primarily in the form of nitrate, and all of the wetlands were effective in reducing both nitrate and total N loads. Nitrate N and total N removal rates averaged 1,500 and 1,440 kg N ha−1 yr−1, respectively, with the slightly lower total N removal rates reflecting a small net export of reduced N (averaging 66 kg N ha−1 yr−1). Average nitrate and total N removal rates were substantially higher than typically reported for Corn Belt wetlands but comparable with highly loaded systems elsewhere. Nitrate removal efficiency ranged from 9 to 92% and was strongly related to hydraulic loading rate and temperature. Results demonstrate the substantial capacity of wetlands to reduce unregulated and highly variable nonpoint‐source N loads over a broad range of weather and loading conditions and provide a reasonable basis for predicting average wetland performance based on hydraulic loading rate, temperature, and nitrate concentration. [ABSTRACT FROM AUTHOR]

Published

2020

47. Improving emergency department transfer for patients arriving by ambulance: A retrospective observational study.

Author

Crilly, Julia, Johnston, Amy NB, Wallis, Marianne, O'Dwyer, John, Byrnes, Joshua, Scuffham, Paul, Zhang, Ping, Bosley, Emma, Chaboyer, Wendy, and Green, David

Subjects

AMBULANCES, COST effectiveness, LENGTH of stay in hospitals, HOSPITAL admission & discharge, HOSPITAL emergency services, EVALUATION of medical care, MEDICAL care costs, NURSE practitioners, NURSES, SCIENTIFIC observation, PATIENTS, STATISTICS, MEDICAL triage, DATA analysis, OCCUPATIONAL roles, DISCHARGE planning, RETROSPECTIVE studies

Abstract

Objective: Extended delays in the transfer of patients from ambulance to ED can compromise patient flow. The present study aimed to describe the relationship between the use of an Emergency Department Ambulance Off‐Load Nurse (EDAOLN) role, ED processes of care and cost effectiveness. Methods: This was a retrospective observational study over three periods of before (T1), during (T2) and after (T3) the introduction of the EDAOLN role in 2012. Ambulance, ED and cost data were linked and used for analysis. Processes of care measures analysed included: time to be seen by a doctor from ED arrival (primary outcome), ambulance‐ED offload compliance, proportion of patients seen within recommended triage timeframe, ED length of stay (LoS), proportion of patients transferred, admitted or discharged from the ED within 4 h and cost effectiveness. Results: A total of 6045 people made 7010 presentations to the ED by ambulance over the study period. Several measures improved significantly between T1 and T2 including offload compliance (T1: 58%; T2: 63%), time to be seen (T1: 31 min; T2: 28 min), ED LoS (T1: 335 min; T2: 306 min), ED LoS <4 h (T1: 31%; T2: 33%). Some measures carried over into T3, albeit to a lesser extent. Post‐hoc analyses showed that outcomes improved most for less urgent patients. The annualised net cost of the EDAOLN (if funded from additional resources) of $130 721 could result in an annualised reduction of approximately 3912 h in waiting time to be seen by a doctor. Conclusion: With the EDAOLN role in place, slight outcome improvements in several key ambulance and ED efficiency criteria were noted. During times of ED crowding, the EDAOLN role may be one cost‐effective strategy to consider. [ABSTRACT FROM AUTHOR]

Published

2020

48. Climate change and the future restructuring of Neotropical anuran biodiversity.

Author

Menéndez‐Guerrero, Pablo A., Green, David M., and Davies, T. Jonathan

Subjects

*CLIMATE change, *SPECIES distribution, *BIODIVERSITY, *SPECIES diversity, *PHYTOGEOGRAPHY, *TOPOGRAPHY

Abstract

Climate change is likely to impact multiple dimensions of biodiversity. Species range shifts are expected and may drive changes in the composition of species assemblages. In some regions, changes in climate may precipitate the loss of geographically restricted, niche specialists and facilitate their replacement by more widespread, niche generalists, leading to decreases in β‐diversity and biotic homogenization. However, in other regions climate change may drive local extinctions and range contraction, leading to increases in β‐diversity and biotic heterogenization. Regional topography should be a strong determinant of such changes as mountainous areas often are home to many geographically restricted species, whereas lowlands and plains are more often inhabited by widespread generalists. Climate warming, therefore, may simultaneously bring about opposite trends in β‐diversity in mountainous highlands versus relatively flat lowlands. To test this hypothesis, we used species distribution modelling to map the present‐day distributions of 2669 Neotropical anuran species, and then generated projections of their future distributions assuming future climate change scenarios. Using traditional metrics of β‐diversity, we mapped shifts in biotic homogenization across the entire Neotropical region. We used generalized additive models to then evaluate how changes in β‐diversity were associated with shifts in species richness, phylogenetic diversity and one measure of ecological generalism. Consistent with our hypothesis, we find increasing biotic homogenization in most highlands, associated with increased numbers of generalists and, to a lesser extent, losses of specialists, leading to an overall increase in alpha diversity, but lower mean phylogenetic diversity. In the lowlands, biotic heterogenization was more common, and primarily driven by local extinctions of generalists, leading to lower α‐diversity, but higher mean phylogenetic diversity. Our results suggest that impacts of climate change on β‐diversity are likely to vary regionally, but will generally lead to lower diversity, with increases in β‐diversity offset by decreases in α‐diversity. [ABSTRACT FROM AUTHOR]

Published

2020

49. Introduction to special section in honour of W. Craig Riddell.

Author

Green, David A.

Subjects

ECONOMIC statistics, GOVERNMENT policy, LABOR supply, INDUSTRIAL relations, LABOR market

Abstract

Craig Riddell could quite properly be called the Dean of Labour Economists in Canada. In 1979, Craig published one of his main early contributions, "The empirical foundations of the Phillips curve: Evidence from Canadian wage contract data", ( I Econometrica i ). While Craig's academic contributions are impressive, focusing exclusively on them would miss the fact that Craig is a true public scholar. In the mid-1990s, Craig was a leading force behind the Canadian Employment Research Forum's initiative in which labour economists from all across Canada worked with government policy analysts to provide research to inform an overhaul of the unemployment insurance system. [Extracted from the article]

Published

2020

50. Characteristics and outcomes of patient presentations made by police to an Australian emergency department.

Author

Crilly, Julia, Zhang, Ping, Lincoln, Cathy, Scuffham, Paul, Timms, Jo, Becker, Ken, Buuren, Nelle, Fisher, Andrew, Murphy, Danny, and Green, David

Subjects

ALCOHOLISM, EMERGENCY medical services, HEALTH status indicators, LENGTH of stay in hospitals, HOSPITAL admission & discharge, HOSPITAL emergency services, EVALUATION of medical care, MEDICAL records, MENTAL illness, MULTIVARIATE analysis, SCIENTIFIC observation, PATIENTS, POLICE, STATISTICS, LOGISTIC regression analysis, RETROSPECTIVE studies, ACQUISITION of data methodology, TERTIARY care

Abstract

Objective: To describe and compare characteristics and outcomes of patient presentations brought in by police (BIBP) with those not BIBP (NBIBP) to one Australian ED. Methods: A retrospective observational study. All patient presentations to a tertiary hospital ED made during the period 8 October 2012 to 7 April 2013 were included. Routinely collected ED information data and medical record review data were used. ED care delivery for people BIBP from the watch house (WH) or other location was compared. Univariate comparison and multivariate logistic regression analyses were performed to identify the different characteristics and ED outcomes between BIBP and NBIBP groups. Results: A total of 35 127 ED presentations occurred within the 6 month period; 392 (1.1%) were BIBP. Compared with those NBIBP, those BIBP were diagnosed with 'psychiatric' and 'toxicology‐related' illnesses in higher proportions. Overlap in health conditions (primarily for physical health reasons) between those BIBP and NBIBP existed. Presentations BIBP from the WH reflected 'physical health emergencies' whereas presentations BIBP from other locations reflected 'behavioural emergencies'. Compared to those NBIBP, those BIBP had a longer wait to be seen (by about 5 min), longer ED length of stay (LOS) if not admitted (by about 20 min) but shorter ED LOS if admitted (by about 59 min). When adjusted for sex, age group and diagnosis, ED LOS (if admitted) and admission rate were statistically significant. For those BIBP, mental health related orders and alcohol breath tests were common. Conclusions: Patients BIBP were different to those NBIBP. Despite comprising a small proportion of overall ED attendances, they are a group where mental health and drug and alcohol issues are over‐represented. Differences in ED care delivery for those BIBP highlights potential opportunities for pre‐hospital healthcare interventions. [ABSTRACT FROM AUTHOR]

Published

2019