Your search keyword '"Tingley, Morgan W"' showing total 40 results

1. Hazardous wildfire smoke events can alter dawn soundscapes in dry forests of central and eastern Washington, United States

Author

Sanderfoot, Olivia V, Sanderfoot, Olivia V, Tingley, Morgan W, Bassing, Sarah B, Vaughan, Joseph K, June, Nicole A, Gardner, Beth, Sanderfoot, Olivia V, Sanderfoot, Olivia V, Tingley, Morgan W, Bassing, Sarah B, Vaughan, Joseph K, June, Nicole A, and Gardner, Beth

Published

2024

2. Designing count‐based studies in a world of hierarchical models

Author

Latif, Quresh S, Latif, Quresh S, Valente, Jonathon J, Johnston, Alison, Davis, Kayla L, Fogarty, Frank A, Green, Adam W, Jones, Gavin M, Leu, Matthias, Michel, Nicole L, Pavlacky, David C, Rigby, Elizabeth A, Rushing, Clark S, Sanderlin, Jamie S, Tingley, Morgan W, Zhao, Qing, Latif, Quresh S, Latif, Quresh S, Valente, Jonathon J, Johnston, Alison, Davis, Kayla L, Fogarty, Frank A, Green, Adam W, Jones, Gavin M, Leu, Matthias, Michel, Nicole L, Pavlacky, David C, Rigby, Elizabeth A, Rushing, Clark S, Sanderlin, Jamie S, Tingley, Morgan W, and Zhao, Qing

Abstract

Advances in hierarchical modeling have improved estimation of ecological parameters from count data, especially those quantifying population abundance, distribution, and dynamics by explicitly accounting for observation processes, particularly incomplete detection. Even hierarchical models that account for incomplete detection, however, cannot compensate for data limitations stemming from poorly planned sampling. Ecologists therefore need guidance for planning count‐based studies that follow established sampling theory, collect appropriate data, and apply current modeling approaches to answer their research questions. We synthesize available literature relevant to guiding count‐based studies. Considering the central historical and ongoing contributions of avian studies to ecological knowledge, we focus on birds as a case study for this review, but the basic principles apply to all populations whose members are sufficiently observable to be counted. The sequence of our review represents the thought process in which we encourage ecologists to engage 1) the research question(s) and population parameters to measure, 2) sampling design, 3) analytical framework, 4) temporal design, and 5) survey protocol. We also provide 2 hypothetical demonstrations of these study plan components representing different research questions and study systems. Mirroring the structure of hierarchical models, we suggest researchers primarily focus on the ecological processes of interest when designing their approach to sampling, and wait to consider logistical constraints of data collection and observation processes when developing the survey protocol. We offer a broad framework for researchers planning count‐based studies, while pointing to relevant literature elaborating on particular tools and concepts.

Published

2024

3. A roadmap for pyrodiversity science

Author

Steel, Zachary L, Steel, Zachary L, Miller, Jesse ED, Ponisio, Lauren C, Tingley, Morgan W, Wilkin, Kate, Blakey, Rachel, Hoffman, Kira M, Jones, Gavin, Steel, Zachary L, Steel, Zachary L, Miller, Jesse ED, Ponisio, Lauren C, Tingley, Morgan W, Wilkin, Kate, Blakey, Rachel, Hoffman, Kira M, and Jones, Gavin

Abstract

Background: Contemporary and projected shifts in global fire regimes highlight the importance of understanding how fire affects ecosystem function and biodiversity across taxa and geographies. Pyrodiversity, or heterogeneity in fire history, is often an important driver of biodiversity, though it has been largely overlooked until relatively recently. In this paper, we synthesise previous research to develop a theoretical framework on pyrodiversity–biodiversity relationships and propose future research and conservation management directions. Theoretical Framework: Pyrodiversity may affect biodiversity by diversifying available ecological niches, stabilising community networks and/or supporting diverse species pools available for post‐fire colonisation. Further, pyrodiversity's effects on biodiversity vary across different spatial, temporal and organismal scales depending on the mobility and other life history traits of the organisms in question and may be mediated by regional eco‐evolutionary factors such as historical fire regimes. Developing a generalisable understanding of pyrodiversity effects on biodiversity has been challenging, in part because pyrodiversity can be quantified in various ways. Applying the Pyrodiversity Concept: Exclusion of Indigenous fire stewardship, fire suppression, increased unplanned ignitions and climate change have led to dramatic shifts in fire regimes globally. Such shifts include departures from historic levels of pyrodiversity and add to existing challenges to biodiversity conservation in fire‐prone landscapes. Managers navigating these challenges can be aided by targeted research into observed contemporary pyrodiversity–biodiversity relationships as well as knowledge of historical reference conditions informed by both Indigenous and local ecological knowledge and western science. Future Research Directions: Several promising avenues exist for the advancement of pyrodiversity science to further both theoretical and practic

Published

2024

4. Multi-trophic occupancy modeling connects temporal dynamics of woodpeckers and beetle sign following fire.

Author

Tingley, Morgan W, Tubelis, Dárius Pukenis1, Tingley, Morgan W, Montgomery, Graham A, Wilkerson, Robert L, Cluck, Daniel R, Sawyer, Sarah C, Siegel, Rodney B, Tingley, Morgan W, Tubelis, Dárius Pukenis1, Tingley, Morgan W, Montgomery, Graham A, Wilkerson, Robert L, Cluck, Daniel R, Sawyer, Sarah C, and Siegel, Rodney B

Abstract

In conifer forests of western North America, wildlife populations can change rapidly in the decade following wildfire as trees die and animals respond to concomitant resource pulses that occur across multiple trophic levels. In particular, black-backed woodpeckers (Picoides arcticus) show predictable temporal increases then declines following fire; this trajectory is widely believed to be a response to the woodpeckers' main prey, woodboring beetle larvae of the families Buprestidae and Cerambycidae, but we lack understanding of how abundances of these predators and prey may be associated in time or space. Here, we pair woodpecker surveys over 10 years with surveys of woodboring beetle sign and activity, collected at 128 survey plots across 22 recent fires, to ask whether accumulated beetle sign indicates current or past black-backed woodpecker occurrence, and whether that relationship is mediated by the number of years since fire. We test this relationship using an integrative multi-trophic occupancy model. Our results demonstrate that woodboring beetle sign is a positive indicator of woodpecker presence 1-3 years following fire, an uninformative indicator from 4-6 years after fire, and a negative indicator beginning 7 years following fire. Woodboring beetle activity, itself, is temporally variable and dependent on tree species composition, with beetle sign generally accumulating over time, particularly in stands with diverse tree communities, but decreasing over time in Pinus-dominated stands where faster bark decay rates lead to brief pulses of beetle activity followed by rapid degradation of tree substrate and accumulated beetle sign. Altogether, the strong connections of woodpecker occurrence to beetle activity support prior hypotheses of how multi-trophic interactions govern rapid temporal dynamics of primary and secondary consumers in burned forests. While our results indicate that beetle sign is, at best, a rapidly shifting and potentially misleading measure

Published

2023

5. Climate‐driven ‘species‐on‐the‐move’ provide tangible anchors to engage the public on climate change

Author

Pecl, Gretta T, Pecl, Gretta T, Kelly, Rachel, Lucas, Chloe, van Putten, Ingrid, Badhe, Renuka, Champion, Curtis, Chen, I‐Ching, Defeo, Omar, Gaitan‐Espitia, Juan Diego, Evengård, Birgitta, Fordham, Damien A, Guo, Fengyi, Henriques, Romina, Henry, Sabine, Lenoir, Jonathan, McGhie, Henry, Mustonen, Tero, Oliver, Stephen, Pettorelli, Nathalie, Pinsky, Malin L, Potts, Warren, Santana‐Garcon, Julia, Sauer, Warwick, Stensgaard, Anna‐Sofie, Tingley, Morgan W, Verges, Adriana, Pecl, Gretta T, Pecl, Gretta T, Kelly, Rachel, Lucas, Chloe, van Putten, Ingrid, Badhe, Renuka, Champion, Curtis, Chen, I‐Ching, Defeo, Omar, Gaitan‐Espitia, Juan Diego, Evengård, Birgitta, Fordham, Damien A, Guo, Fengyi, Henriques, Romina, Henry, Sabine, Lenoir, Jonathan, McGhie, Henry, Mustonen, Tero, Oliver, Stephen, Pettorelli, Nathalie, Pinsky, Malin L, Potts, Warren, Santana‐Garcon, Julia, Sauer, Warwick, Stensgaard, Anna‐Sofie, Tingley, Morgan W, and Verges, Adriana

Abstract

Over recent decades, our understanding of climate change has accelerated greatly, but unfortunately, observable impacts have increased in tandem. Both mitigation and adaptation have not progressed at the level or scale warranted by our collective knowledge on climate change. More effective approaches to engage people on current and future anthropogenic climate change effects are urgently needed. Here, we show how species whose distributions are shifting in response to climate change, that is, ‘species‐on‐the‐move’, present an opportunity to engage people with climate change by linking to human values, and our deep connections with the places in which we live, in a locally relevant yet globally coherent narrative. Species‐on‐the‐move can impact ecosystem structure and function, food security, human health, livelihoods, culture and even the climate itself through feedback to the climate system, presenting a wide variety of potential pathways for people to understand that climate change affects them personally as individuals. Citizen science focussed on documenting changes in biodiversity is one approach to foster a deeper engagement on climate change. However, other possible avenues, which may offer potential to engage people currently unconnected with nature, include arts, games or collaborations with rural agriculture (e.g. new occurrences of pest species) or fisheries organisations (e.g. shifting stocks) or healthcare providers (e.g. changing distributions of disease vectors). Through the importance we place on the aspects of life impacted by the redistribution of species around us, species‐on‐the‐move offer emotional pathways to connect with people on the complex issue of climate change in profound ways that have the potential to engender interest and action on climate change. Read the free Plain Language Summary for this article on the Journal blog.

Published

2023

6. Differential response of three large mammal species to human recreation in the Rocky Mountains of Colorado, USA

Author

Uetrecht, Madison R, Uetrecht, Madison R, Bermudez, April, Novoa, Daniel, Reithel, Jennifer, Rodriguez, Vaneza, Smith, Rosemary, Sprott, Shannon, Tingley, Morgan W, Blumstein, Daniel T, Uetrecht, Madison R, Uetrecht, Madison R, Bermudez, April, Novoa, Daniel, Reithel, Jennifer, Rodriguez, Vaneza, Smith, Rosemary, Sprott, Shannon, Tingley, Morgan W, and Blumstein, Daniel T

Abstract

Outdoor recreation benefits local economies, environmental education, and public health and wellbeing, but it can also adversely affect local ecosystems. Human presence in natural areas alters feeding and reproductive behaviors, physiology, and population structure in many wildlife species, often resulting in cascading effects through entire ecological communities. As outdoor recreation gains popularity, existing trails are becoming overcrowded and new trails are being built to accommodate increasing use. Many recreation impact studies have investigated effects of the presence or absence of humans while few have investigated recreation effects on wildlife using a gradient of disturbance intensity. We used camera traps to quantify trail use by humans and mid- to large-sized mammals in an area of intense outdoor recreation–the Upper East River Valley, Colorado, USA. We selected five trails with different types and intensities of human use and deployed six cameras on each trail for five weeks during a COVID-enhanced 2020 summer tourism season. We used occupancy models to estimate detectability and habitat use of the three most common mammal species in the study area and determined which human activities affect the habitat use patterns of each species. Human activities affected each species differently. Mule deer (Odocoileus hemionus) tended to use areas with more vehicles, more predators, and greater distances from the trailhead, and they were more likely to be detected where there were more bikers. Coyotes (Canis latrans) and red foxes (Vulpes vulpes) were most likely to use areas where their prey species occurred, and foxes were more likely to be detected where the vegetation was shorter. Humans and their recreational activities differentially influence different species. More generally, these results reinforce that it is unlikely that a single management policy is suitable for all species and management should thus be tailored for each target species.

Published

2023

7. Climate-driven 'species-on-the-move' provide tangible anchors to engage the public on climate change

Author

Pecl, Gretta T., Kelly, Rachel, Lucas, Chloe, van Putten, Ingrid, Badhe, Renuka, Champion, Curtis, Chen, I-Ching, Defeo, Omar, Gaitan-Espitia, Juan Diego, Evengård, Birgitta, Fordham, Damien A., Guo, Fengyi, Henriques, Romina, Henry, Sabine, Lenoir, Jonathan, McGhie, Henry, Mustonen, Tero, Oliver, Stephen, Pettorelli, Nathalie, Pinsky, Malin L., Potts, Warren, Santana-Garcon, Julia, Sauer, Warwick, Stensgaard, Anna-Sofie, Tingley, Morgan W., Verges, Adriana, Pecl, Gretta T., Kelly, Rachel, Lucas, Chloe, van Putten, Ingrid, Badhe, Renuka, Champion, Curtis, Chen, I-Ching, Defeo, Omar, Gaitan-Espitia, Juan Diego, Evengård, Birgitta, Fordham, Damien A., Guo, Fengyi, Henriques, Romina, Henry, Sabine, Lenoir, Jonathan, McGhie, Henry, Mustonen, Tero, Oliver, Stephen, Pettorelli, Nathalie, Pinsky, Malin L., Potts, Warren, Santana-Garcon, Julia, Sauer, Warwick, Stensgaard, Anna-Sofie, Tingley, Morgan W., and Verges, Adriana

Abstract

Over recent decades, our understanding of climate change has accelerated greatly, but unfortunately, observable impacts have increased in tandem. Both mitigation and adaptation have not progressed at the level or scale warranted by our collective knowledge on climate change. More effective approaches to engage people on current and future anthropogenic climate change effects are urgently needed. Here, we show how species whose distributions are shifting in response to climate change, that is, ‘species-on-the-move’, present an opportunity to engage people with climate change by linking to human values, and our deep connections with the places in which we live, in a locally relevant yet globally coherent narrative. Species-on-the-move can impact ecosystem structure and function, food security, human health, livelihoods, culture and even the climate itself through feedback to the climate system, presenting a wide variety of potential pathways for people to understand that climate change affects them personally as individuals. Citizen science focussed on documenting changes in biodiversity is one approach to foster a deeper engagement on climate change. However, other possible avenues, which may offer potential to engage people currently unconnected with nature, include arts, games or collaborations with rural agriculture (e.g. new occurrences of pest species) or fisheries organisations (e.g. shifting stocks) or healthcare providers (e.g. changing distributions of disease vectors). Through the importance we place on the aspects of life impacted by the redistribution of species around us, species-on-the-move offer emotional pathways to connect with people on the complex issue of climate change in profound ways that have the potential to engender interest and action on climate change. Read the free Plain Language Summary for this article on the Journal blog.

Published

2023

8. Geomagnetic disturbance associated with increased vagrancy in migratory landbirds.

Author

Tonelli, Benjamin A, Tonelli, Benjamin A, Youngflesh, Casey, Tingley, Morgan W, Tonelli, Benjamin A, Tonelli, Benjamin A, Youngflesh, Casey, and Tingley, Morgan W

Abstract

Rare birds known as "accidentals" or "vagrants" have long captivated birdwatchers and puzzled biologists, but the drivers of these rare occurrences remain elusive. Errors in orientation or navigation are considered one potential driver: migratory birds use the Earth's magnetic field-sensed using specialized magnetoreceptor structures-to traverse long distances over often unfamiliar terrain. Disruption to these magnetoreceptors or to the magnetic field itself could potentially cause errors leading to vagrancy. Using data from 2 million captures of 152 landbird species in North America over 60 years, we demonstrate a strong association between disruption to the Earth's magnetic field and avian vagrancy during fall migration. Furthermore, we find that increased solar activity-a disruptor of the avian magnetoreceptor-generally counteracts this effect, potentially mitigating misorientation by disabling the ability for birds to use the magnetic field to orient. Our results link a hypothesized cause of misorientation to the phenomenon of avian vagrancy, further demonstrating the importance of magnetoreception among the orientation mechanisms of migratory birds. Geomagnetic disturbance may have important downstream ecological consequences, as vagrants may experience increased mortality rates or facilitate range expansions of avian populations and the organisms they disperse.

Published

2023

9. The combined effects of temperature and fragment area on the demographic rates of an Afrotropical bird community over 34 years

Author

Neate-Clegg, Montague HC, Neate-Clegg, Montague HC, Etterson, Matthew A, Tingley, Morgan W, Newmark, William D, Neate-Clegg, Montague HC, Neate-Clegg, Montague HC, Etterson, Matthew A, Tingley, Morgan W, and Newmark, William D

Published

2023

10. Demographic consequences of phenological asynchrony for North American songbirds.

Author

Youngflesh, Casey, Youngflesh, Casey, Montgomery, Graham A, Saracco, James F, Miller, David AW, Guralnick, Robert P, Hurlbert, Allen H, Siegel, Rodney B, LaFrance, Raphael, Tingley, Morgan W, Youngflesh, Casey, Youngflesh, Casey, Montgomery, Graham A, Saracco, James F, Miller, David AW, Guralnick, Robert P, Hurlbert, Allen H, Siegel, Rodney B, LaFrance, Raphael, and Tingley, Morgan W

Abstract

Changes in phenology in response to ongoing climate change have been observed in numerous taxa around the world. Differing rates of phenological shifts across trophic levels have led to concerns that ecological interactions may become increasingly decoupled in time, with potential negative consequences for populations. Despite widespread evidence of phenological change and a broad body of supporting theory, large-scale multitaxa evidence for demographic consequences of phenological asynchrony remains elusive. Using data from a continental-scale bird-banding program, we assess the impact of phenological dynamics on avian breeding productivity in 41 species of migratory and resident North American birds breeding in and around forested areas. We find strong evidence for a phenological optimum where breeding productivity decreases in years with both particularly early or late phenology and when breeding occurs early or late relative to local vegetation phenology. Moreover, we demonstrate that landbird breeding phenology did not keep pace with shifts in the timing of vegetation green-up over a recent 18-y period, even though avian breeding phenology has tracked green-up with greater sensitivity than arrival for migratory species. Species whose breeding phenology more closely tracked green-up tend to migrate shorter distances (or are resident over the entire year) and breed earlier in the season. These results showcase the broadest-scale evidence yet of the demographic impacts of phenological change. Future climate change-associated phenological shifts will likely result in a decrease in breeding productivity for most species, given that bird breeding phenology is failing to keep pace with climate change.

Published

2023

11. Climate-driven 'species-on-the-move' provide tangible anchors to engage the public on climate change

Author

Pecl, Gretta T., Kelly, Rachel, Lucas, Chloe, van Putten, Ingrid, Badhe, Renuka, Champion, Curtis, Chen, I-Ching, Defeo, Omar, Gaitan-Espitia, Juan Diego, Evengård, Birgitta, Fordham, Damien A., Guo, Fengyi, Henriques, Romina, Henry, Sabine, Lenoir, Jonathan, McGhie, Henry, Mustonen, Tero, Oliver, Stephen, Pettorelli, Nathalie, Pinsky, Malin L., Potts, Warren, Santana-Garcon, Julia, Sauer, Warwick, Stensgaard, Anna-Sofie, Tingley, Morgan W., Verges, Adriana, Pecl, Gretta T., Kelly, Rachel, Lucas, Chloe, van Putten, Ingrid, Badhe, Renuka, Champion, Curtis, Chen, I-Ching, Defeo, Omar, Gaitan-Espitia, Juan Diego, Evengård, Birgitta, Fordham, Damien A., Guo, Fengyi, Henriques, Romina, Henry, Sabine, Lenoir, Jonathan, McGhie, Henry, Mustonen, Tero, Oliver, Stephen, Pettorelli, Nathalie, Pinsky, Malin L., Potts, Warren, Santana-Garcon, Julia, Sauer, Warwick, Stensgaard, Anna-Sofie, Tingley, Morgan W., and Verges, Adriana

Abstract

Over recent decades, our understanding of climate change has accelerated greatly, but unfortunately, observable impacts have increased in tandem. Both mitigation and adaptation have not progressed at the level or scale warranted by our collective knowledge on climate change. More effective approaches to engage people on current and future anthropogenic climate change effects are urgently needed. Here, we show how species whose distributions are shifting in response to climate change, that is, ‘species-on-the-move’, present an opportunity to engage people with climate change by linking to human values, and our deep connections with the places in which we live, in a locally relevant yet globally coherent narrative. Species-on-the-move can impact ecosystem structure and function, food security, human health, livelihoods, culture and even the climate itself through feedback to the climate system, presenting a wide variety of potential pathways for people to understand that climate change affects them personally as individuals. Citizen science focussed on documenting changes in biodiversity is one approach to foster a deeper engagement on climate change. However, other possible avenues, which may offer potential to engage people currently unconnected with nature, include arts, games or collaborations with rural agriculture (e.g. new occurrences of pest species) or fisheries organisations (e.g. shifting stocks) or healthcare providers (e.g. changing distributions of disease vectors). Through the importance we place on the aspects of life impacted by the redistribution of species around us, species-on-the-move offer emotional pathways to connect with people on the complex issue of climate change in profound ways that have the potential to engender interest and action on climate change. Read the free Plain Language Summary for this article on the Journal blog.

Published

2023

12. Climate-driven 'species-on-the-move' provide tangible anchors to engage the public on climate change

Author

Pecl, Gretta T., Kelly, Rachel, Lucas, Chloe, van Putten, Ingrid, Badhe, Renuka, Champion, Curtis, Chen, I-Ching, Defeo, Omar, Gaitan-Espitia, Juan Diego, Evengård, Birgitta, Fordham, Damien A., Guo, Fengyi, Henriques, Romina, Henry, Sabine, Lenoir, Jonathan, McGhie, Henry, Mustonen, Tero, Oliver, Stephen, Pettorelli, Nathalie, Pinsky, Malin L., Potts, Warren, Santana-Garcon, Julia, Sauer, Warwick, Stensgaard, Anna-Sofie, Tingley, Morgan W., Verges, Adriana, Pecl, Gretta T., Kelly, Rachel, Lucas, Chloe, van Putten, Ingrid, Badhe, Renuka, Champion, Curtis, Chen, I-Ching, Defeo, Omar, Gaitan-Espitia, Juan Diego, Evengård, Birgitta, Fordham, Damien A., Guo, Fengyi, Henriques, Romina, Henry, Sabine, Lenoir, Jonathan, McGhie, Henry, Mustonen, Tero, Oliver, Stephen, Pettorelli, Nathalie, Pinsky, Malin L., Potts, Warren, Santana-Garcon, Julia, Sauer, Warwick, Stensgaard, Anna-Sofie, Tingley, Morgan W., and Verges, Adriana

Abstract

Over recent decades, our understanding of climate change has accelerated greatly, but unfortunately, observable impacts have increased in tandem. Both mitigation and adaptation have not progressed at the level or scale warranted by our collective knowledge on climate change. More effective approaches to engage people on current and future anthropogenic climate change effects are urgently needed. Here, we show how species whose distributions are shifting in response to climate change, that is, ‘species-on-the-move’, present an opportunity to engage people with climate change by linking to human values, and our deep connections with the places in which we live, in a locally relevant yet globally coherent narrative. Species-on-the-move can impact ecosystem structure and function, food security, human health, livelihoods, culture and even the climate itself through feedback to the climate system, presenting a wide variety of potential pathways for people to understand that climate change affects them personally as individuals. Citizen science focussed on documenting changes in biodiversity is one approach to foster a deeper engagement on climate change. However, other possible avenues, which may offer potential to engage people currently unconnected with nature, include arts, games or collaborations with rural agriculture (e.g. new occurrences of pest species) or fisheries organisations (e.g. shifting stocks) or healthcare providers (e.g. changing distributions of disease vectors). Through the importance we place on the aspects of life impacted by the redistribution of species around us, species-on-the-move offer emotional pathways to connect with people on the complex issue of climate change in profound ways that have the potential to engender interest and action on climate change. Read the free Plain Language Summary for this article on the Journal blog.

Published

2023

13. Reciprocal knowledge exchange between climate-driven species redistribution and invasion ecology

Author

Wright, Brigette R., Wright, Brigette R., Komyakova, Valeriya, Sorte, Cascade J.B., Tingley, Morgan W., Pecl, Gretta T., Wright, Brigette R., Wright, Brigette R., Komyakova, Valeriya, Sorte, Cascade J.B., Tingley, Morgan W., and Pecl, Gretta T.

Abstract

Climate change is driving a rapid but highly variable redistribution of life on Earth, comparable in scale and magnitude to changes historically only seen over tens of thousands of years. Despite increased research effort, the complex mechanisms driving these changes in geographical distribution of species, or ‘range shifts’, remain only superficially understood. Attempts to understand the processes underpinning species responses are hampered by the paucity of comprehensive, longterm datasets, few theoretical frameworks, and lack of strategic direction and cross-fertilisation with related ecological fields. As an emerging, dynamic field, range shift ecology would benefit from integrating concepts and approaches from other related, more established areas of research, such as invasion ecology. Here, we use a systematic literature review and bibliographic analysis to assess the level of knowledge exchange between range shift ecology and invasion ecology. We found that while the two fields are inherently strongly related, the level of exchange and integration of ideas via citation networks does not reflect the closeness of the fields in terms of concepts, theories, and practice. Although range shift papers cite invasion papers more often than vice versa, the citation rate is generally quite low for both. These findings are evidence of the increasing need to move away from discipline-focused interpretation and communication of scientific results, towards greater research integration and connection between related ecological fields. Increased knowledge and data exchange between range shift and invasion fields could improve mechanistic understanding of range shifts and species invasions under climate change, enhance the predictive capacity of models and better inform management and conservation efforts.

Published

2023

14. Climate-driven ‘species-on-the-move’ provide tangible anchors to engage the public on climate change

Author

Pecl, Gretta T., Kelly, Rachel, Lucas, Chloe, van Putten, Ingrid, Badhe, Renuka, Champion, Curtis, Chen, I. Ching, Defeo, Omar, Gaitan-Espitia, Juan Diego, Evengård, Birgitta, Fordham, Damien A., Guo, Fengyi, Henriques, Romina, Henry, Sabine, Lenoir, Jonathan, McGhie, Henry, Mustonen, Tero, Oliver, Stephen, Pettorelli, Nathalie, Pinsky, Malin L., Potts, Warren, Santana-Garcon, Julia, Sauer, Warwick, Stensgaard, Anna-Sofie, Tingley, Morgan W., Verges, Adriana, Pecl, Gretta T., Kelly, Rachel, Lucas, Chloe, van Putten, Ingrid, Badhe, Renuka, Champion, Curtis, Chen, I. Ching, Defeo, Omar, Gaitan-Espitia, Juan Diego, Evengård, Birgitta, Fordham, Damien A., Guo, Fengyi, Henriques, Romina, Henry, Sabine, Lenoir, Jonathan, McGhie, Henry, Mustonen, Tero, Oliver, Stephen, Pettorelli, Nathalie, Pinsky, Malin L., Potts, Warren, Santana-Garcon, Julia, Sauer, Warwick, Stensgaard, Anna-Sofie, Tingley, Morgan W., and Verges, Adriana

Abstract

1. Over recent decades, our understanding of climate change has accelerated greatly, but unfortunately, observable impacts have increased in tandem. Both mitigation and adaptation have not progressed at the level or scale warranted by our collective knowledge on climate change. More effective approaches to engage people on current and future anthropogenic climate change effects are urgently needed. 2. Here, we show how species whose distributions are shifting in response to climate change, that is, ‘species-on-the-move’, present an opportunity to engage people with climate change by linking to human values, and our deep connections with the places in which we live, in a locally relevant yet globally coherent narrative. 3. Species-on-the-move can impact ecosystem structure and function, food security, human health, livelihoods, culture and even the climate itself through feedback to the climate system, presenting a wide variety of potential pathways for people to understand that climate change affects them personally as individuals. 4. Citizen science focussed on documenting changes in biodiversity is one approach to foster a deeper engagement on climate change. However, other possible avenues, which may offer potential to engage people currently unconnected with nature, include arts, games or collaborations with rural agriculture (e.g. new occurrences of pest species) or fisheries organisations (e.g. shifting stocks) or healthcare providers (e.g. changing distributions of disease vectors). 5. Through the importance we place on the aspects of life impacted by the redistribution of species around us, species-on-the-move offer emotional pathways to connect with people on the complex issue of climate change in profound ways that have the potential to engender interest and action on climate change.

Published

2023

15. Climate-driven ‘species-on-the-move’ provide tangible anchors to engage the public on climate change

Author

Pecl, Gretta T., Kelly, Rachel, Lucas, Chloe, van Putten, Ingrid, Badhe, Renuka, Champion, Curtis, Chen, I-Ching, Defeo, Omar, Gaitan-Espitia, Juan Diego, Evengård, Birgitta, Fordham, Damien A., Guo, Fengyi, Henriques, Romina, Henry, Sabine, Lenoir, Jonathan, McGhie, Henry, Mustonen, Tero, Oliver, Stephen, Pettorelli, Nathalie, Pinsky, Malin L., Potts, Warren, Santana-Garcon, Julia, Sauer, Warwick, Stensgaard, Anna-Sofie, Tingley, Morgan W., Verges, Adriana, Pecl, Gretta T., Kelly, Rachel, Lucas, Chloe, van Putten, Ingrid, Badhe, Renuka, Champion, Curtis, Chen, I-Ching, Defeo, Omar, Gaitan-Espitia, Juan Diego, Evengård, Birgitta, Fordham, Damien A., Guo, Fengyi, Henriques, Romina, Henry, Sabine, Lenoir, Jonathan, McGhie, Henry, Mustonen, Tero, Oliver, Stephen, Pettorelli, Nathalie, Pinsky, Malin L., Potts, Warren, Santana-Garcon, Julia, Sauer, Warwick, Stensgaard, Anna-Sofie, Tingley, Morgan W., and Verges, Adriana

Abstract

Over recent decades, our understanding of climate change has accelerated greatly, but unfortunately, observable impacts have increased in tandem. Both mitigation and adaptation have not progressed at the level or scale warranted by our collective knowledge on climate change. More effective approaches to engage people on current and future anthropogenic climate change effects are urgently needed. Here, we show how species whose distributions are shifting in response to climate change, that is, ‘species-on-the-move’, present an opportunity to engage people with climate change by linking to human values, and our deep connections with the places in which we live, in a locally relevant yet globally coherent narrative. Species-on-the-move can impact ecosystem structure and function, food security, human health, livelihoods, culture and even the climate itself through feedback to the climate system, presenting a wide variety of potential pathways for people to understand that climate change affects them personally as individuals. Citizen science focussed on documenting changes in biodiversity is one approach to foster a deeper engagement on climate change. However, other possible avenues, which may offer potential to engage people currently unconnected with nature, include arts, games or collaborations with rural agriculture (e.g. new occurrences of pest species) or fisheries organisations (e.g. shifting stocks) or healthcare providers (e.g. changing distributions of disease vectors). Through the importance we place on the aspects of life impacted by the redistribution of species around us, species-on-the-move offer emotional pathways to connect with people on the complex issue of climate change in profound ways that have the potential to engender interest and action on climate change. Read the free Plain Language Summary for this article on the Journal blog.

Published

2023

16. Climate-driven 'species-on-the-move' provide tangible anchors to engage the public on climate change

Author

Pecl, Gretta T., Kelly, Rachel, Lucas, Chloe, van Putten, Ingrid, Badhe, Renuka, Champion, Curtis, Chen, I-Ching, Defeo, Omar, Gaitan-Espitia, Juan Diego, Evengård, Birgitta, Fordham, Damien A., Guo, Fengyi, Henriques, Romina, Henry, Sabine, Lenoir, Jonathan, McGhie, Henry, Mustonen, Tero, Oliver, Stephen, Pettorelli, Nathalie, Pinsky, Malin L., Potts, Warren, Santana-Garcon, Julia, Sauer, Warwick, Stensgaard, Anna-Sofie, Tingley, Morgan W., Verges, Adriana, Pecl, Gretta T., Kelly, Rachel, Lucas, Chloe, van Putten, Ingrid, Badhe, Renuka, Champion, Curtis, Chen, I-Ching, Defeo, Omar, Gaitan-Espitia, Juan Diego, Evengård, Birgitta, Fordham, Damien A., Guo, Fengyi, Henriques, Romina, Henry, Sabine, Lenoir, Jonathan, McGhie, Henry, Mustonen, Tero, Oliver, Stephen, Pettorelli, Nathalie, Pinsky, Malin L., Potts, Warren, Santana-Garcon, Julia, Sauer, Warwick, Stensgaard, Anna-Sofie, Tingley, Morgan W., and Verges, Adriana

Abstract

Over recent decades, our understanding of climate change has accelerated greatly, but unfortunately, observable impacts have increased in tandem. Both mitigation and adaptation have not progressed at the level or scale warranted by our collective knowledge on climate change. More effective approaches to engage people on current and future anthropogenic climate change effects are urgently needed. Here, we show how species whose distributions are shifting in response to climate change, that is, ‘species-on-the-move’, present an opportunity to engage people with climate change by linking to human values, and our deep connections with the places in which we live, in a locally relevant yet globally coherent narrative. Species-on-the-move can impact ecosystem structure and function, food security, human health, livelihoods, culture and even the climate itself through feedback to the climate system, presenting a wide variety of potential pathways for people to understand that climate change affects them personally as individuals. Citizen science focussed on documenting changes in biodiversity is one approach to foster a deeper engagement on climate change. However, other possible avenues, which may offer potential to engage people currently unconnected with nature, include arts, games or collaborations with rural agriculture (e.g. new occurrences of pest species) or fisheries organisations (e.g. shifting stocks) or healthcare providers (e.g. changing distributions of disease vectors). Through the importance we place on the aspects of life impacted by the redistribution of species around us, species-on-the-move offer emotional pathways to connect with people on the complex issue of climate change in profound ways that have the potential to engender interest and action on climate change. Read the free Plain Language Summary for this article on the Journal blog.

Published

2023

17. Climate-driven 'species-on-the-move' provide tangible anchors to engage the public on climate change

Author

Pecl, Gretta T., Kelly, Rachel, Lucas, Chloe, van Putten, Ingrid, Badhe, Renuka, Champion, Curtis, Chen, I-Ching, Defeo, Omar, Gaitan-Espitia, Juan Diego, Evengård, Birgitta, Fordham, Damien A., Guo, Fengyi, Henriques, Romina, Henry, Sabine, Lenoir, Jonathan, McGhie, Henry, Mustonen, Tero, Oliver, Stephen, Pettorelli, Nathalie, Pinsky, Malin L., Potts, Warren, Santana-Garcon, Julia, Sauer, Warwick, Stensgaard, Anna-Sofie, Tingley, Morgan W., Verges, Adriana, Pecl, Gretta T., Kelly, Rachel, Lucas, Chloe, van Putten, Ingrid, Badhe, Renuka, Champion, Curtis, Chen, I-Ching, Defeo, Omar, Gaitan-Espitia, Juan Diego, Evengård, Birgitta, Fordham, Damien A., Guo, Fengyi, Henriques, Romina, Henry, Sabine, Lenoir, Jonathan, McGhie, Henry, Mustonen, Tero, Oliver, Stephen, Pettorelli, Nathalie, Pinsky, Malin L., Potts, Warren, Santana-Garcon, Julia, Sauer, Warwick, Stensgaard, Anna-Sofie, Tingley, Morgan W., and Verges, Adriana

Abstract

Over recent decades, our understanding of climate change has accelerated greatly, but unfortunately, observable impacts have increased in tandem. Both mitigation and adaptation have not progressed at the level or scale warranted by our collective knowledge on climate change. More effective approaches to engage people on current and future anthropogenic climate change effects are urgently needed. Here, we show how species whose distributions are shifting in response to climate change, that is, ‘species-on-the-move’, present an opportunity to engage people with climate change by linking to human values, and our deep connections with the places in which we live, in a locally relevant yet globally coherent narrative. Species-on-the-move can impact ecosystem structure and function, food security, human health, livelihoods, culture and even the climate itself through feedback to the climate system, presenting a wide variety of potential pathways for people to understand that climate change affects them personally as individuals. Citizen science focussed on documenting changes in biodiversity is one approach to foster a deeper engagement on climate change. However, other possible avenues, which may offer potential to engage people currently unconnected with nature, include arts, games or collaborations with rural agriculture (e.g. new occurrences of pest species) or fisheries organisations (e.g. shifting stocks) or healthcare providers (e.g. changing distributions of disease vectors). Through the importance we place on the aspects of life impacted by the redistribution of species around us, species-on-the-move offer emotional pathways to connect with people on the complex issue of climate change in profound ways that have the potential to engender interest and action on climate change. Read the free Plain Language Summary for this article on the Journal blog.

Published

2023

18. Climate-driven ‘species-on-the-move’ provide tangible anchors to engage the public on climate change

Author

Pecl, Gretta T., Kelly, Rachel, Lucas, Chloe, van Putten, Ingrid, Badhe, Renuka, Champion, Curtis, Chen, I-Ching, Defeo, Omar, Gaitan-Espitia, Juan Diego, Evengård, Birgitta, Fordham, Damien A., Guo, Fengyi, Henriques, Romina, Henry, Sabine, Lenoir, Jonathan, McGhie, Henry, Mustonen, Tero, Oliver, Stephen, Pettorelli, Nathalie, Pinsky, Malin L., Potts, Warren, Santana-Garcon, Julia, Sauer, Warwick, Stensgaard, Anna-Sofie, Tingley, Morgan W., Verges, Adriana, Pecl, Gretta T., Kelly, Rachel, Lucas, Chloe, van Putten, Ingrid, Badhe, Renuka, Champion, Curtis, Chen, I-Ching, Defeo, Omar, Gaitan-Espitia, Juan Diego, Evengård, Birgitta, Fordham, Damien A., Guo, Fengyi, Henriques, Romina, Henry, Sabine, Lenoir, Jonathan, McGhie, Henry, Mustonen, Tero, Oliver, Stephen, Pettorelli, Nathalie, Pinsky, Malin L., Potts, Warren, Santana-Garcon, Julia, Sauer, Warwick, Stensgaard, Anna-Sofie, Tingley, Morgan W., and Verges, Adriana

Abstract

Over recent decades, our understanding of climate change has accelerated greatly, but unfortunately, observable impacts have increased in tandem. Both mitigation and adaptation have not progressed at the level or scale warranted by our collective knowledge on climate change. More effective approaches to engage people on current and future anthropogenic climate change effects are urgently needed. Here, we show how species whose distributions are shifting in response to climate change, that is, ‘species-on-the-move’, present an opportunity to engage people with climate change by linking to human values, and our deep connections with the places in which we live, in a locally relevant yet globally coherent narrative. Species-on-the-move can impact ecosystem structure and function, food security, human health, livelihoods, culture and even the climate itself through feedback to the climate system, presenting a wide variety of potential pathways for people to understand that climate change affects them personally as individuals. Citizen science focussed on documenting changes in biodiversity is one approach to foster a deeper engagement on climate change. However, other possible avenues, which may offer potential to engage people currently unconnected with nature, include arts, games or collaborations with rural agriculture (e.g. new occurrences of pest species) or fisheries organisations (e.g. shifting stocks) or healthcare providers (e.g. changing distributions of disease vectors). Through the importance we place on the aspects of life impacted by the redistribution of species around us, species-on-the-move offer emotional pathways to connect with people on the complex issue of climate change in profound ways that have the potential to engender interest and action on climate change. Read the free Plain Language Summary for this article on the Journal blog.

Published

2023

19. A framework and case study to systematically identify long‐term insect abundance and diversity datasets

Author

Grames, Eliza M., Montgomery, Graham A., Boyes, Douglas H., Dicks, Lynn V., Forister, Matthew L., Matson, Tanner A., Nakagawa, Shinichi, Prendergast, Kit S., Taylor, Nigel G., Tingley, Morgan W., Wagner, David L., White, Thomas E., Woodcock, Paul, Elphick, Chris S., Grames, Eliza M., Montgomery, Graham A., Boyes, Douglas H., Dicks, Lynn V., Forister, Matthew L., Matson, Tanner A., Nakagawa, Shinichi, Prendergast, Kit S., Taylor, Nigel G., Tingley, Morgan W., Wagner, David L., White, Thomas E., Woodcock, Paul, and Elphick, Chris S.

Abstract

Biodiversity is in crisis, and insects are no exception. To understand insect population and community trends globally, it is necessary to identify and synthesize diverse datasets representing different taxa, regions, and habitats. The relevant literature is, however, vast and challenging to aggregate. The Entomological Global Evidence Map (EntoGEM) project is a systematic effort to search for and catalogue studies with long-term data that can be used to understand changes in insect abundance and diversity. Here, we present the overall EntoGEM framework and results of the first completed subproject of the systematic map, which compiled sources of information about changes in dragonfly and damselfly (Odonata) occurrence, abundance, biomass, distribution, and diversity. We identified 45 multi-year odonate datasets, including 10 studies with data that span more than 10 years. If data from each study could be gathered or extracted, these studies could contribute to analyses of long-term population trends of this important group of indicator insects. The methods developed to support the EntoGEM project, and its framework for synthesizing a vast literature, have the potential to be applied not only to other broad topics in ecology and conservation, but also to other areas of research where data are widely distributed.

Published

2022

20. Reimagine fire science for the anthropocene

Author

Shuman, Jacquelyn K, Nelson, Karen E1, Shuman, Jacquelyn K, Balch, Jennifer K, Barnes, Rebecca T, Higuera, Philip E, Roos, Christopher I, Schwilk, Dylan W, Stavros, E Natasha, Banerjee, Tirtha, Bela, Megan M, Bendix, Jacob, Bertolino, Sandro, Bililign, Solomon, Bladon, Kevin D, Brando, Paulo, Breidenthal, Robert E, Buma, Brian, Calhoun, Donna, Carvalho, Leila MV, Cattau, Megan E, Cawley, Kaelin M, Chandra, Sudeep, Chipman, Melissa L, Cobian-Iñiguez, Jeanette, Conlisk, Erin, Coop, Jonathan D, Cullen, Alison, Davis, Kimberley T, Dayalu, Archana, De Sales, Fernando, Dolman, Megan, Ellsworth, Lisa M, Franklin, Scott, Guiterman, Christopher H, Hamilton, Matthew, Hanan, Erin J, Hansen, Winslow D, Hantson, Stijn, Harvey, Brian J, Holz, Andrés, Huang, Tao, Hurteau, Matthew D, Ilangakoon, Nayani T, Jennings, Megan, Jones, Charles, Klimaszewski-Patterson, Anna, Kobziar, Leda N, Kominoski, John, Kosovic, Branko, Krawchuk, Meg A, Laris, Paul, Leonard, Jackson, Loria-Salazar, S Marcela, Lucash, Melissa, Mahmoud, Hussam, Margolis, Ellis, Maxwell, Toby, McCarty, Jessica L, McWethy, David B, Meyer, Rachel S, Miesel, Jessica R, Moser, W Keith, Nagy, R Chelsea, Niyogi, Dev, Palmer, Hannah M, Pellegrini, Adam, Poulter, Benjamin, Robertson, Kevin, Rocha, Adrian V, Sadegh, Mojtaba, Santos, Fernanda, Scordo, Facundo, Sexton, Joseph O, Sharma, A Surjalal, Smith, Alistair MS, Soja, Amber J, Still, Christopher, Swetnam, Tyson, Syphard, Alexandra D, Tingley, Morgan W, Tohidi, Ali, Trugman, Anna T, Turetsky, Merritt, Varner, J Morgan, Wang, Yuhang, Whitman, Thea, Yelenik, Stephanie, Zhang, Xuan, Shuman, Jacquelyn K, Nelson, Karen E1, Shuman, Jacquelyn K, Balch, Jennifer K, Barnes, Rebecca T, Higuera, Philip E, Roos, Christopher I, Schwilk, Dylan W, Stavros, E Natasha, Banerjee, Tirtha, Bela, Megan M, Bendix, Jacob, Bertolino, Sandro, Bililign, Solomon, Bladon, Kevin D, Brando, Paulo, Breidenthal, Robert E, Buma, Brian, Calhoun, Donna, Carvalho, Leila MV, Cattau, Megan E, Cawley, Kaelin M, Chandra, Sudeep, Chipman, Melissa L, Cobian-Iñiguez, Jeanette, Conlisk, Erin, Coop, Jonathan D, Cullen, Alison, Davis, Kimberley T, Dayalu, Archana, De Sales, Fernando, Dolman, Megan, Ellsworth, Lisa M, Franklin, Scott, Guiterman, Christopher H, Hamilton, Matthew, Hanan, Erin J, Hansen, Winslow D, Hantson, Stijn, Harvey, Brian J, Holz, Andrés, Huang, Tao, Hurteau, Matthew D, Ilangakoon, Nayani T, Jennings, Megan, Jones, Charles, Klimaszewski-Patterson, Anna, Kobziar, Leda N, Kominoski, John, Kosovic, Branko, Krawchuk, Meg A, Laris, Paul, Leonard, Jackson, Loria-Salazar, S Marcela, Lucash, Melissa, Mahmoud, Hussam, Margolis, Ellis, Maxwell, Toby, McCarty, Jessica L, McWethy, David B, Meyer, Rachel S, Miesel, Jessica R, Moser, W Keith, Nagy, R Chelsea, Niyogi, Dev, Palmer, Hannah M, Pellegrini, Adam, Poulter, Benjamin, Robertson, Kevin, Rocha, Adrian V, Sadegh, Mojtaba, Santos, Fernanda, Scordo, Facundo, Sexton, Joseph O, Sharma, A Surjalal, Smith, Alistair MS, Soja, Amber J, Still, Christopher, Swetnam, Tyson, Syphard, Alexandra D, Tingley, Morgan W, Tohidi, Ali, Trugman, Anna T, Turetsky, Merritt, Varner, J Morgan, Wang, Yuhang, Whitman, Thea, Yelenik, Stephanie, and Zhang, Xuan

Abstract

Fire is an integral component of ecosystems globally and a tool that humans have harnessed for millennia. Altered fire regimes are a fundamental cause and consequence of global change, impacting people and the biophysical systems on which they depend. As part of the newly emerging Anthropocene, marked by human-caused climate change and radical changes to ecosystems, fire danger is increasing, and fires are having increasingly devastating impacts on human health, infrastructure, and ecosystem services. Increasing fire danger is a vexing problem that requires deep transdisciplinary, trans-sector, and inclusive partnerships to address. Here, we outline barriers and opportunities in the next generation of fire science and provide guidance for investment in future research. We synthesize insights needed to better address the long-standing challenges of innovation across disciplines to (i) promote coordinated research efforts; (ii) embrace different ways of knowing and knowledge generation; (iii) promote exploration of fundamental science; (iv) capitalize on the “firehose” of data for societal benefit; and (v) integrate human and natural systems into models across multiple scales. Fire science is thus at a critical transitional moment. We need to shift from observation and modeled representations of varying components of climate, people, vegetation, and fire to more integrative and predictive approaches that support pathways toward mitigating and adapting to our increasingly flammable world, including the utilization of fire for human safety and benefit. Only through overcoming institutional silos and accessing knowledge across diverse communities can we effectively undertake research that improves outcomes in our more fiery future.

Published

2022

21. Decadal-scale phenology and seasonal climate drivers of migratory baleen whales in a rapidly warming marine ecosystem.

Author

Pendleton, Daniel E, Pendleton, Daniel E, Tingley, Morgan W, Ganley, Laura C, Friedland, Kevin D, Mayo, Charles, Brown, Moira W, McKenna, Brigid E, Jordaan, Adrian, Staudinger, Michelle D, Pendleton, Daniel E, Pendleton, Daniel E, Tingley, Morgan W, Ganley, Laura C, Friedland, Kevin D, Mayo, Charles, Brown, Moira W, McKenna, Brigid E, Jordaan, Adrian, and Staudinger, Michelle D

Abstract

Species' response to rapid climate change can be measured through shifts in timing of recurring biological events, known as phenology. The Gulf of Maine is one of the most rapidly warming regions of the ocean, and thus an ideal system to study phenological and biological responses to climate change. A better understanding of climate-induced changes in phenology is needed to effectively and adaptively manage human-wildlife conflicts. Using data from a 20+ year marine mammal observation program, we tested the hypothesis that the phenology of large whale habitat use in Cape Cod Bay has changed and is related to regional-scale shifts in the thermal onset of spring. We used a multi-season occupancy model to measure phenological shifts and evaluate trends in the date of peak habitat use for North Atlantic right (Eubalaena glacialis), humpback (Megaptera novaeangliae), and fin (Balaenoptera physalus) whales. The date of peak habitat use shifted by +18.1 days (0.90 days/year) for right whales and +19.1 days (0.96 days/year) for humpback whales. We then evaluated interannual variability in peak habitat use relative to thermal spring transition dates (STD), and hypothesized that right whales, as planktivorous specialist feeders, would exhibit a stronger response to thermal phenology than fin and humpback whales, which are more generalist piscivorous feeders. There was a significant negative effect of western region STD on right whale habitat use, and a significant positive effect of eastern region STD on fin whale habitat use indicating differential responses to spatial seasonal conditions. Protections for threatened and endangered whales have been designed to align with expected phenology of habitat use. Our results show that whales are becoming mismatched with static seasonal management measures through shifts in their timing of habitat use, and they suggest that effective management strategies may need to alter protections as species adapt to climate change.

Published

2022

22. A framework and case study to systematically identify long‐term insect abundance and diversity datasets

Author

Grames, Eliza M., Montgomery, Graham A., Boyes, Douglas H., Dicks, Lynn V., Forister, Matthew L., Matson, Tanner A., Nakagawa, Shinichi, Prendergast, Kit S., Taylor, Nigel G., Tingley, Morgan W., Wagner, David L., White, Thomas E., Woodcock, Paul, Elphick, Chris S., Grames, Eliza M., Montgomery, Graham A., Boyes, Douglas H., Dicks, Lynn V., Forister, Matthew L., Matson, Tanner A., Nakagawa, Shinichi, Prendergast, Kit S., Taylor, Nigel G., Tingley, Morgan W., Wagner, David L., White, Thomas E., Woodcock, Paul, and Elphick, Chris S.

Abstract

Biodiversity is in crisis, and insects are no exception. To understand insect population and community trends globally, it is necessary to identify and synthesize diverse datasets representing different taxa, regions, and habitats. The relevant literature is, however, vast and challenging to aggregate. The Entomological Global Evidence Map (EntoGEM) project is a systematic effort to search for and catalogue studies with long-term data that can be used to understand changes in insect abundance and diversity. Here, we present the overall EntoGEM framework and results of the first completed subproject of the systematic map, which compiled sources of information about changes in dragonfly and damselfly (Odonata) occurrence, abundance, biomass, distribution, and diversity. We identified 45 multi-year odonate datasets, including 10 studies with data that span more than 10 years. If data from each study could be gathered or extracted, these studies could contribute to analyses of long-term population trends of this important group of indicator insects. The methods developed to support the EntoGEM project, and its framework for synthesizing a vast literature, have the potential to be applied not only to other broad topics in ecology and conservation, but also to other areas of research where data are widely distributed.

Published

2022

23. The two extinctions of the Carolina Parakeet Conuropsis carolinensis

Author

BURGIO, KEVIN R, CARLSON, COLIN J, Bond, AL, RUBEGA, MARGARET A, TINGLEY, MORGAN W, BURGIO, KEVIN R, CARLSON, COLIN J, Bond, AL, RUBEGA, MARGARET A, and TINGLEY, MORGAN W

Abstract

Due to climate change and habitat conversion, estimates of the resulting levels of species extinction over the next century are alarming. Devising conservation solutions will require many different approaches, including examining the extinction processes of recently extinct species. Given that parrots are one of the most threatened groups of birds, information regarding parrot extinction is pressing. While most recent parrot extinctions have been island endemics, the Carolina Parakeet Conuropsis carolinensis had an 18th-century range covering nearly half of the present-day United States, yet mostly disappeared by the end of the 19th century. Despite a great deal of speculation, the major cause of its extinction remains unknown. Establishing the date when a species went extinct is one of the first steps in determining what caused their extinction. While there have been estimates of their extinction date, these analyses used a limited dataset and did not include observational data. We used a recently published, extensive dataset of Carolina Parakeet specimens and observations combined with a Bayesian extinction estimating model to determine the most likely extinction dates. By considering each of the two subspecies independently, we found that they went extinct ˜30 years apart: the western subspecies C. c. ludovicianus going extinct around 1914 and the eastern subspecies C. c. carolinensis either in the late 1930s or mid-1940s. Had we only considered all observations together, this pattern would have been obscured, possibly missing a major clue in solving the mystery of the parakeet’s extinction. Since the Carolina Parakeet was a wide-ranging species that went extinct during a period of rapid agricultural and industrial expansion, conditions that mirror those occurring in many parts of the world where parrot diversity is highest, any progress we make in unraveling the mystery of their disappearance may be vital to modern conservation efforts.

Published

2021

24. Is the insect apocalypse upon us? How to find out

Author

Montgomery, Graham A., Dunn, Robert R., Fox, Richard, Jongejans, E., Leather, Simon R., Saunders, Manu E., Shortall, Chris R., Tingley, Morgan W., Wagner, David L., Montgomery, Graham A., Dunn, Robert R., Fox, Richard, Jongejans, E., Leather, Simon R., Saunders, Manu E., Shortall, Chris R., Tingley, Morgan W., and Wagner, David L.

Abstract

Contains fulltext : 216784pos.pdf (Author’s version postprint ) (Open Access) Contains fulltext : 216784.pdf (Publisher’s version ) (Open Access)

Published

2020

25. Is the insect apocalypse upon us? How to find out

Author

Montgomery, Graham A., Dunn, Robert R., Fox, Richard, Jongejans, E., Leather, Simon R., Saunders, Manu E., Shortall, Chris R., Tingley, Morgan W., Wagner, David L., Montgomery, Graham A., Dunn, Robert R., Fox, Richard, Jongejans, E., Leather, Simon R., Saunders, Manu E., Shortall, Chris R., Tingley, Morgan W., and Wagner, David L.

Abstract

Contains fulltext : 216784pos.pdf (Author’s version postprint ) (Open Access) Contains fulltext : 216784.pdf (Publisher’s version ) (Open Access)

Published

2020

26. Fire and biodiversity in the Anthropocene

Author

Centre Tecnològic Forestal de Catalunya, University of Melbourne, Australian Research Council, Xunta de Galicia, Foundation for Science and Technology, European Commission, Ministerio de Economía y Competitividad (España), Kelly, Luke T., Giljohann, Katherine M., Duane, Andrea, Aquilué, Núria, Archibald, Sally, Batllori, Enric, Bennett, Andrew F., Buckland, Stephen T., Canelles, Quim, Clarke, Michael F., Fortin, Marie-Josée, Hermoso, Virgilio, Herrando, Sergi, Keane, Robert E., Lake, Frank K., McCarthy, Michael A., Morán-Ordóñez, Alejandra, Parr, Catherine L., Pausas, J. G., Penman, Trent D., Regos, Adrián, Rumpff, Libby, Santos, Julianna L., Smith, Annabel L., Syphard, Alexandra D., Tingley, Morgan W., Brotons, Lluís, Centre Tecnològic Forestal de Catalunya, University of Melbourne, Australian Research Council, Xunta de Galicia, Foundation for Science and Technology, European Commission, Ministerio de Economía y Competitividad (España), Kelly, Luke T., Giljohann, Katherine M., Duane, Andrea, Aquilué, Núria, Archibald, Sally, Batllori, Enric, Bennett, Andrew F., Buckland, Stephen T., Canelles, Quim, Clarke, Michael F., Fortin, Marie-Josée, Hermoso, Virgilio, Herrando, Sergi, Keane, Robert E., Lake, Frank K., McCarthy, Michael A., Morán-Ordóñez, Alejandra, Parr, Catherine L., Pausas, J. G., Penman, Trent D., Regos, Adrián, Rumpff, Libby, Santos, Julianna L., Smith, Annabel L., Syphard, Alexandra D., Tingley, Morgan W., and Brotons, Lluís

Abstract

Fire has been a source of global biodiversity for millions of years. However, interactions with anthropogenic drivers such as climate change, land use, and invasive species are changing the nature of fire activity and its impacts. We review how such changes are threatening species with extinction and transforming terrestrial ecosystems. Conservation of Earth’s biological diversity will be achieved only by recognizing and responding to the critical role of fire. In the Anthropocene, this requires that conservation planning explicitly includes the combined effects of human activities and fire regimes. Improved forecasts for biodiversity must also integrate the connections among people, fire, and ecosystems. Such integration provides an opportunity for new actions that could revolutionize how society sustains biodiversity in a time of changing fire activity.

Published

2020

27. Lazarus ecology: Recovering the distribution and migratory patterns of the extinct Carolina parakeet.

Author

Burgio, Kevin R, Burgio, Kevin R, Carlson, Colin J, Tingley, Morgan W, Burgio, Kevin R, Burgio, Kevin R, Carlson, Colin J, and Tingley, Morgan W

Abstract

The study of the ecology and natural history of species has traditionally ceased when a species goes extinct, despite the benefit to current and future generations of potential findings. We used the extinct Carolina parakeet as a case study to develop a framework investigating the distributional limits, subspecific variation, and migratory habits of this species as a means to recover important information about recently extinct species. We united historical accounts with museum collections to develop an exhaustive, comprehensive database of every known occurrence of this once iconic species. With these data, we combined species distribution models and ordinal niche comparisons to confront multiple conjectured hypotheses about the parakeet's ecology with empirical data on where and when this species occurred. Our results demonstrate that the Carolina parakeet's range was likely much smaller than previously believed, that the eastern and western subspecies occupied different climatic niches with broad geographical separation, and that the western subspecies was likely a seasonal migrant while the eastern subspecies was not. This study highlights the novelty and importance of collecting occurrence data from published observations on extinct species, providing a starting point for future investigations of the factors that drove the Carolina parakeet to extinction. Moreover, the recovery of lost autecological knowledge could benefit the conservation of other parrot species currently in decline and would be crucial to the success of potential de-extinction efforts for the Carolina parakeet.

Published

2017

28. Increasing phenological asynchrony between spring green-up and arrival of migratory birds.

Author

Mayor, Stephen J, Mayor, Stephen J, Guralnick, Robert P, Tingley, Morgan W, Otegui, Javier, Withey, John C, Elmendorf, Sarah C, Andrew, Margaret E, Leyk, Stefan, Pearse, Ian S, Schneider, David C, Mayor, Stephen J, Mayor, Stephen J, Guralnick, Robert P, Tingley, Morgan W, Otegui, Javier, Withey, John C, Elmendorf, Sarah C, Andrew, Margaret E, Leyk, Stefan, Pearse, Ian S, and Schneider, David C

Abstract

Consistent with a warming climate, birds are shifting the timing of their migrations, but it remains unclear to what extent these shifts have kept pace with the changing environment. Because bird migration is primarily cued by annually consistent physiological responses to photoperiod, but conditions at their breeding grounds depend on annually variable climate, bird arrival and climate-driven spring events would diverge. We combined satellite and citizen science data to estimate rates of change in phenological interval between spring green-up and migratory arrival for 48 breeding passerine species across North America. Both arrival and green-up changed over time, usually in the same direction (earlier or later). Although birds adjusted their arrival dates, 9 of 48 species did not keep pace with rapidly changing green-up and across all species the interval between arrival and green-up increased by over half a day per year. As green-up became earlier in the east, arrival of eastern breeding species increasingly lagged behind green-up, whereas in the west-where green-up typically became later-birds arrived increasingly earlier relative to green-up. Our results highlight that phenologies of species and trophic levels can shift at different rates, potentially leading to phenological mismatches with negative fitness consequences.

Published

2017

29. Camera trap arrays improve detection probability of wildlife: Investigating study design considerations using an empirical dataset.

Author

O'Connor, Kelly M, O'Connor, Kelly M, Nathan, Lucas R, Liberati, Marjorie R, Tingley, Morgan W, Vokoun, Jason C, Rittenhouse, Tracy AG, O'Connor, Kelly M, O'Connor, Kelly M, Nathan, Lucas R, Liberati, Marjorie R, Tingley, Morgan W, Vokoun, Jason C, and Rittenhouse, Tracy AG

Abstract

Camera trapping is a standard tool in ecological research and wildlife conservation. Study designs, particularly for small-bodied or cryptic wildlife species often attempt to boost low detection probabilities by using non-random camera placement or baited cameras, which may bias data, or incorrectly estimate detection and occupancy. We investigated the ability of non-baited, multi-camera arrays to increase detection probabilities of wildlife. Study design components were evaluated for their influence on wildlife detectability by iteratively parsing an empirical dataset (1) by different sizes of camera arrays deployed (1-10 cameras), and (2) by total season length (1-365 days). Four species from our dataset that represented a range of body sizes and differing degrees of presumed detectability based on life history traits were investigated: white-tailed deer (Odocoileus virginianus), bobcat (Lynx rufus), raccoon (Procyon lotor), and Virginia opossum (Didelphis virginiana). For all species, increasing from a single camera to a multi-camera array significantly improved detection probability across the range of season lengths and number of study sites evaluated. The use of a two camera array increased survey detection an average of 80% (range 40-128%) from the detection probability of a single camera across the four species. Species that were detected infrequently benefited most from a multiple-camera array, where the addition of up to eight cameras produced significant increases in detectability. However, for species detected at high frequencies, single cameras produced a season-long (i.e, the length of time over which cameras are deployed and actively monitored) detectability greater than 0.75. These results highlight the need for researchers to be critical about camera trap study designs based on their intended target species, as detectability for each focal species responded differently to array size and season length. We suggest that researchers a priori identify ta

Published

2017

30. Increasing phenological asynchrony between spring green-up and arrival of migratory birds.

Author

Mayor, Stephen J, Mayor, Stephen J, Guralnick, Robert P, Tingley, Morgan W, Otegui, Javier, Withey, John C, Elmendorf, Sarah C, Andrew, Margaret E, Leyk, Stefan, Pearse, Ian S, Schneider, David C, Mayor, Stephen J, Mayor, Stephen J, Guralnick, Robert P, Tingley, Morgan W, Otegui, Javier, Withey, John C, Elmendorf, Sarah C, Andrew, Margaret E, Leyk, Stefan, Pearse, Ian S, and Schneider, David C

Abstract

Consistent with a warming climate, birds are shifting the timing of their migrations, but it remains unclear to what extent these shifts have kept pace with the changing environment. Because bird migration is primarily cued by annually consistent physiological responses to photoperiod, but conditions at their breeding grounds depend on annually variable climate, bird arrival and climate-driven spring events would diverge. We combined satellite and citizen science data to estimate rates of change in phenological interval between spring green-up and migratory arrival for 48 breeding passerine species across North America. Both arrival and green-up changed over time, usually in the same direction (earlier or later). Although birds adjusted their arrival dates, 9 of 48 species did not keep pace with rapidly changing green-up and across all species the interval between arrival and green-up increased by over half a day per year. As green-up became earlier in the east, arrival of eastern breeding species increasingly lagged behind green-up, whereas in the west-where green-up typically became later-birds arrived increasingly earlier relative to green-up. Our results highlight that phenologies of species and trophic levels can shift at different rates, potentially leading to phenological mismatches with negative fitness consequences.

Published

2017

31. Camera trap arrays improve detection probability of wildlife: Investigating study design considerations using an empirical dataset.

Author

O'Connor, Kelly M, Bonter, David Neil1, O'Connor, Kelly M, Nathan, Lucas R, Liberati, Marjorie R, Tingley, Morgan W, Vokoun, Jason C, Rittenhouse, Tracy AG, O'Connor, Kelly M, Bonter, David Neil1, O'Connor, Kelly M, Nathan, Lucas R, Liberati, Marjorie R, Tingley, Morgan W, Vokoun, Jason C, and Rittenhouse, Tracy AG

Abstract

Camera trapping is a standard tool in ecological research and wildlife conservation. Study designs, particularly for small-bodied or cryptic wildlife species often attempt to boost low detection probabilities by using non-random camera placement or baited cameras, which may bias data, or incorrectly estimate detection and occupancy. We investigated the ability of non-baited, multi-camera arrays to increase detection probabilities of wildlife. Study design components were evaluated for their influence on wildlife detectability by iteratively parsing an empirical dataset (1) by different sizes of camera arrays deployed (1-10 cameras), and (2) by total season length (1-365 days). Four species from our dataset that represented a range of body sizes and differing degrees of presumed detectability based on life history traits were investigated: white-tailed deer (Odocoileus virginianus), bobcat (Lynx rufus), raccoon (Procyon lotor), and Virginia opossum (Didelphis virginiana). For all species, increasing from a single camera to a multi-camera array significantly improved detection probability across the range of season lengths and number of study sites evaluated. The use of a two camera array increased survey detection an average of 80% (range 40-128%) from the detection probability of a single camera across the four species. Species that were detected infrequently benefited most from a multiple-camera array, where the addition of up to eight cameras produced significant increases in detectability. However, for species detected at high frequencies, single cameras produced a season-long (i.e, the length of time over which cameras are deployed and actively monitored) detectability greater than 0.75. These results highlight the need for researchers to be critical about camera trap study designs based on their intended target species, as detectability for each focal species responded differently to array size and season length. We suggest that researchers a priori identify ta

Published

2017

32. Lazarus ecology: Recovering the distribution and migratory patterns of the extinct Carolina parakeet.

Author

Burgio, Kevin R, Burgio, Kevin R, Carlson, Colin J, Tingley, Morgan W, Burgio, Kevin R, Burgio, Kevin R, Carlson, Colin J, and Tingley, Morgan W

Abstract

The study of the ecology and natural history of species has traditionally ceased when a species goes extinct, despite the benefit to current and future generations of potential findings. We used the extinct Carolina parakeet as a case study to develop a framework investigating the distributional limits, subspecific variation, and migratory habits of this species as a means to recover important information about recently extinct species. We united historical accounts with museum collections to develop an exhaustive, comprehensive database of every known occurrence of this once iconic species. With these data, we combined species distribution models and ordinal niche comparisons to confront multiple conjectured hypotheses about the parakeet's ecology with empirical data on where and when this species occurred. Our results demonstrate that the Carolina parakeet's range was likely much smaller than previously believed, that the eastern and western subspecies occupied different climatic niches with broad geographical separation, and that the western subspecies was likely a seasonal migrant while the eastern subspecies was not. This study highlights the novelty and importance of collecting occurrence data from published observations on extinct species, providing a starting point for future investigations of the factors that drove the Carolina parakeet to extinction. Moreover, the recovery of lost autecological knowledge could benefit the conservation of other parrot species currently in decline and would be crucial to the success of potential de-extinction efforts for the Carolina parakeet.

Published

2017

33. Phenological shifts conserve thermal niches in North American birds and reshape expectations for climate-driven range shifts.

Author

Socolar, Jacob B, Socolar, Jacob B, Epanchin, Peter N, Beissinger, Steven R, Tingley, Morgan W, Socolar, Jacob B, Socolar, Jacob B, Epanchin, Peter N, Beissinger, Steven R, and Tingley, Morgan W

Abstract

Species respond to climate change in two dominant ways: range shifts in latitude or elevation and phenological shifts of life-history events. Range shifts are widely viewed as the principal mechanism for thermal niche tracking, and phenological shifts in birds and other consumers are widely understood as the principal mechanism for tracking temporal peaks in biotic resources. However, phenological and range shifts each present simultaneous opportunities for temperature and resource tracking, although the possible role for phenological shifts in thermal niche tracking has been widely overlooked. Using a canonical dataset of Californian bird surveys and a detectability-based approach for quantifying phenological signal, we show that Californian bird communities advanced their breeding phenology by 5-12 d over the last century. This phenological shift might track shifting resource peaks, but it also reduces average temperatures during nesting by over 1 °C, approximately the same magnitude that average temperatures have warmed over the same period. We further show that early-summer temperature anomalies are correlated with nest success in a continental-scale database of bird nests, suggesting avian thermal niches might be broadly limited by temperatures during nesting. These findings outline an adaptation surface where geographic range and breeding phenology respond jointly to constraints imposed by temperature and resource phenology. By stabilizing temperatures during nesting, phenological shifts might mitigate the need for range shifts. Global change ecology will benefit from further exploring phenological adjustment as a potential mechanism for thermal niche tracking and vice versa.

Published

2017

34. Spatially heterogeneous impact of climate change on small mammals of montane California.

Author

Rowe, Kevin C, Rowe, Kevin C, Rowe, Karen MC, Tingley, Morgan W, Koo, Michelle S, Patton, James L, Conroy, Chris J, Perrine, John D, Beissinger, Steven R, Moritz, Craig, Rowe, Kevin C, Rowe, Kevin C, Rowe, Karen MC, Tingley, Morgan W, Koo, Michelle S, Patton, James L, Conroy, Chris J, Perrine, John D, Beissinger, Steven R, and Moritz, Craig

Abstract

Resurveys of historical collecting localities have revealed range shifts, primarily leading edge expansions, which have been attributed to global warming. However, there have been few spatially replicated community-scale resurveys testing whether species' responses are spatially consistent. Here we repeated early twentieth century surveys of small mammals along elevational gradients in northern, central and southern regions of montane California. Of the 34 species we analysed, 25 shifted their ranges upslope or downslope in at least one region. However, two-thirds of ranges in the three regions remained stable at one or both elevational limits and none of the 22 species found in all three regions shifted both their upper and lower limits in the same direction in all regions. When shifts occurred, high-elevation species typically contracted their lower limits upslope, whereas low-elevation species had heterogeneous responses. For high-elevation species, site-specific change in temperature better predicted the direction of shifts than change in precipitation, whereas the direction of shifts by low-elevation species was unpredictable by temperature or precipitation. While our results support previous findings of primarily upslope shifts in montane species, they also highlight the degree to which the responses of individual species vary across geographically replicated landscapes.

Published

2015

35. Detecting diversity: emerging methods to estimate species diversity.

Author

Iknayan, Kelly J, Iknayan, Kelly J, Tingley, Morgan W, Furnas, Brett J, Beissinger, Steven R, Iknayan, Kelly J, Iknayan, Kelly J, Tingley, Morgan W, Furnas, Brett J, and Beissinger, Steven R

Abstract

Estimates of species richness and diversity are central to community and macroecology and are frequently used in conservation planning. Commonly used diversity metrics account for undetected species primarily by controlling for sampling effort. Yet the probability of detecting an individual can vary among species, observers, survey methods, and sites. We review emerging methods to estimate alpha, beta, gamma, and metacommunity diversity through hierarchical multispecies occupancy models (MSOMs) and multispecies abundance models (MSAMs) that explicitly incorporate observation error in the detection process for species or individuals. We examine advantages, limitations, and assumptions of these detection-based hierarchical models for estimating species diversity. Accounting for imperfect detection using these approaches has influenced conclusions of comparative community studies and creates new opportunities for testing theory.

Published

2014

36. Detecting diversity: emerging methods to estimate species diversity.

Author

Iknayan, Kelly J, Iknayan, Kelly J, Tingley, Morgan W, Furnas, Brett J, Beissinger, Steven R, Iknayan, Kelly J, Iknayan, Kelly J, Tingley, Morgan W, Furnas, Brett J, and Beissinger, Steven R

Abstract

Estimates of species richness and diversity are central to community and macroecology and are frequently used in conservation planning. Commonly used diversity metrics account for undetected species primarily by controlling for sampling effort. Yet the probability of detecting an individual can vary among species, observers, survey methods, and sites. We review emerging methods to estimate alpha, beta, gamma, and metacommunity diversity through hierarchical multispecies occupancy models (MSOMs) and multispecies abundance models (MSAMs) that explicitly incorporate observation error in the detection process for species or individuals. We examine advantages, limitations, and assumptions of these detection-based hierarchical models for estimating species diversity. Accounting for imperfect detection using these approaches has influenced conclusions of comparative community studies and creates new opportunities for testing theory.

Published

2014

37. Niche tracking and rapid establishment of distributional equilibrium in the house sparrow show potential responsiveness of species to climate change.

Author

Monahan, William B, Monahan, William B, Tingley, Morgan W, Monahan, William B, Monahan, William B, and Tingley, Morgan W

Abstract

The ability of species to respond to novel future climates is determined in part by their physiological capacity to tolerate climate change and the degree to which they have reached and continue to maintain distributional equilibrium with the environment. While broad-scale correlative climatic measurements of a species' niche are often described as estimating the fundamental niche, it is unclear how well these occupied portions actually approximate the fundamental niche per se, versus the fundamental niche that exists in environmental space, and what fitness values bounding the niche are necessary to maintain distributional equilibrium. Here, we investigate these questions by comparing physiological and correlative estimates of the thermal niche in the introduced North American house sparrow (Passer domesticus). Our results indicate that occupied portions of the fundamental niche derived from temperature correlations closely approximate the centroid of the existing fundamental niche calculated on a fitness threshold of 50% population mortality. Using these niche measures, a 75-year time series analysis (1930-2004) further shows that: (i) existing fundamental and occupied niche centroids did not undergo directional change, (ii) interannual changes in the two niche centroids were correlated, (iii) temperatures in North America moved through niche space in a net centripetal fashion, and consequently, (iv) most areas throughout the range of the house sparrow tracked the existing fundamental niche centroid with respect to at least one temperature gradient. Following introduction to a new continent, the house sparrow rapidly tracked its thermal niche and established continent-wide distributional equilibrium with respect to major temperature gradients. These dynamics were mediated in large part by the species' broad thermal physiological tolerances, high dispersal potential, competitive advantage in human-dominated landscapes, and climatically induced changes to the realiz

Published

2012

38. Niche tracking and rapid establishment of distributional equilibrium in the house sparrow show potential responsiveness of species to climate change.

Author

Monahan, William B, Navas, Carlos A1, Monahan, William B, Tingley, Morgan W, Monahan, William B, Navas, Carlos A1, Monahan, William B, and Tingley, Morgan W

Abstract

The ability of species to respond to novel future climates is determined in part by their physiological capacity to tolerate climate change and the degree to which they have reached and continue to maintain distributional equilibrium with the environment. While broad-scale correlative climatic measurements of a species' niche are often described as estimating the fundamental niche, it is unclear how well these occupied portions actually approximate the fundamental niche per se, versus the fundamental niche that exists in environmental space, and what fitness values bounding the niche are necessary to maintain distributional equilibrium. Here, we investigate these questions by comparing physiological and correlative estimates of the thermal niche in the introduced North American house sparrow (Passer domesticus). Our results indicate that occupied portions of the fundamental niche derived from temperature correlations closely approximate the centroid of the existing fundamental niche calculated on a fitness threshold of 50% population mortality. Using these niche measures, a 75-year time series analysis (1930-2004) further shows that: (i) existing fundamental and occupied niche centroids did not undergo directional change, (ii) interannual changes in the two niche centroids were correlated, (iii) temperatures in North America moved through niche space in a net centripetal fashion, and consequently, (iv) most areas throughout the range of the house sparrow tracked the existing fundamental niche centroid with respect to at least one temperature gradient. Following introduction to a new continent, the house sparrow rapidly tracked its thermal niche and established continent-wide distributional equilibrium with respect to major temperature gradients. These dynamics were mediated in large part by the species' broad thermal physiological tolerances, high dispersal potential, competitive advantage in human-dominated landscapes, and climatically induced changes to the realiz

Published

2012

39. The push and pull of climate change causes heterogeneous shifts in avian elevational ranges

Author

Tingley, Morgan W., Koo, Michelle S., Rush, Andrew C., Beissinger, Steven R., Moritz, Craig, Tingley, Morgan W., Koo, Michelle S., Rush, Andrew C., Beissinger, Steven R., and Moritz, Craig

Abstract

Projected effects of climate change on animal distributions primarily focus on consequences of temperature and largely ignore impacts of altered precipitation. While much evidence supports temperature-driven range shifts, there is substantial heterogeneity in species' responses that remains poorly understood. We resampled breeding ranges of birds across three elevational transects in the Sierra Nevada Mountains, USA, that were extensively surveyed in the early 20th century. Presence-absence comparisons were made at 77 sites and occupancy models were used to separate significant range shifts from artifacts of false absences. Over the past century, rising temperature pushed species upslope while increased precipitation pulled them downslope, resulting in range shifts that were heterogeneous within species and among regions. While 84% of species shifted their elevational distribution, only 51% of upper or lower range boundary shifts were upslope. By comparison, 82% of range shifts were in a direction predicted by changes in either temperature or precipitation. Species were significantly more likely to shift elevational ranges than their ecological counterparts if they had small clutch sizes, defended all-purpose territories, and were year-round residents, results that were in opposition to a priori predictions from dispersal-related hypotheses. Our results illustrate the complex interplay between species-specific and region-specific factors that structure patterns of breeding range change over long time periods. Future projections of increasing temperature and highly variable precipitation regimes create a strong potential for heterogeneous responses by species at range margins.

Published

2012

40. Birds track their Grinnellian niche through a century of climate change

Author

Tingley, Morgan W., Monahan, William B., Beissinger, Steven R., Moritz, Craig, Tingley, Morgan W., Monahan, William B., Beissinger, Steven R., and Moritz, Craig

Abstract

In the face of environmental change, species can evolve new physiological tolerances to cope with altered climatic conditions or move spatially to maintain existing physiological associations with particular climates that define each species' climatic niche. When environmental change occurs over short temporal and large spatial scales, vagile species are expected to move geographically by tracking their climatic niches through time. Here, we test for evidence of niche tracking in bird species of the Sierra Nevada mountains of California, focusing on 53 species resurveyed nearly a century apart at 82 sites on four elevational transects. Changes in climate and bird distributions resulted in focal species shifting their average climatological range over time. By comparing the directions of these shifts relative to the centroids of species' range-wide climatic niches, we found that 48 species (90.6%) tracked their climatic niche. Analysis of niche sensitivity on an independent set of occurrence data significantly predicted the temperature and precipitation gradients tracked by species. Furthermore, in 50 species (94.3%), site-specific occupancy models showed that the position of each site relative to the climatic niche centroid explained colonization and extinction probabilities better than a null model with constant probabilities. Combined, our results indicate that the factors limiting a bird species' range in the Sierra Nevada in the early 20th century also tended to drive changes in distribution over time, suggesting that climatic models derived from niche theory might be used successfully to forecast where and how to conserve species in the face of climate change.

Published

2009