Showing total 12 results

1. Mesolithic projectile variability along the southern North Sea basin (NW Europe): Hunter-gatherer responses to repeated climate change at the beginning of the Holocene.

Author

Crombé, Philippe

Subjects

CLIMATE change, ATMOSPHERIC sciences, PROJECTILES, ENVIRONMENTAL sciences, EARTH sciences

Abstract

This paper investigates how former hunter-gatherers living along the southern North Sea coast in NW Europe adapted to long-term and short-term climatic and environmental changes at the beginning of the Holocene. It is argued that contemporaneous hunter-gatherers repeatedly changed their hunting equipment in response to changing climate and environment, not just for functional reasons but mainly driven by socio-territorial considerations. Based on a Bayesian analysis of 122 critically selected radiocarbon dates a broad chronological correlation is demonstrated between rapid changes in the design and technology of stone projectiles and short but abrupt cooling events, occurring at 10.3, 9.3 and 8.2 ka cal BP. Combined with the rapid sea level rises and increased wildfires these climatic events probably impacted the lifeways of hunter-gatherers in such a way that they increasingly faced resource stress and competition, forcing them to invest in the symbolic defense of their social territories. [ABSTRACT FROM AUTHOR]

Published

2019

2. An operational approach to high resolution agro-ecological zoning in West-Africa.

Author

Le Page, Y., Vasconcelos, Maria, Palminha, A., Melo, I. Q., and Pereira, J. M. C.

Subjects

REGIONAL planning, CLIMATE change, AGRICULTURAL forecasts, DEVELOPING countries

Abstract

The objective of this work is to develop a simple methodology for high resolution crop suitability analysis under current and future climate, easily applicable and useful in Least Developed Countries. The approach addresses both regional planning in the context of climate change projections and pre-emptive short-term rural extension interventions based on same-year agricultural season forecasts, while implemented with off-the-shelf resources. The developed tools are applied operationally in a case-study developed in three regions of Guinea-Bissau and the obtained results, as well as the advantages and limitations of methods applied, are discussed. In this paper we show how a simple approach can easily generate information on climate vulnerability and how it can be operationally used in rural extension services. [ABSTRACT FROM AUTHOR]

Published

2017

3. Niche shifts and the potential distribution of Phenacoccus solenopsis (Hemiptera: Pseudococcidae) under climate change.

Author

Wei, Jiufeng, Zhang, Hufang, Zhao, Wanqing, and Zhao, Qing

Subjects

ECOLOGICAL niche, HEMIPTERA, NIPAECOCCUS viridis, INTRODUCED organisms & the environment, CROP losses, PREVENTION

Abstract

The cotton mealybug, Phenacoccus solenopsis Tinsley (Hemiptera: Pseudococcidae), is a serious invasive species that significantly damages plants of approximately 60 families around the world. It is originally from North America and has also been introduced to other continents. Our goals were to create a current and future potential global distribution map for this pest under climate change with MaxEnt software. We tested the hypothesis of niche conservatism for P. solenopsis by comparing its native niche in North America to its invasive niches on other continents using Principal components analyses (PCA) in R. The potentially suitable habitat for P. solenopsis in its native and non-native ranges is presented in the present paper. The results suggested that the mean temperature of the wettest quarter and the mean temperature of the driest quarter are the most important environmental variables determining the potential distribution of P. solenopsis. We found strong evidence for niche shifts in the realized climatic niche of this pest in South America and Australia due to niche unfilling; however, a niche shift in the realized climatic niche of this pest in Eurasian owing to niche expansion. [ABSTRACT FROM AUTHOR]

Published

2017

4. Conservation stories from the front lines.

Author

Gross, Liza, Hettinger, Annaliese, Moore, Jonathan W., and Neeley, Liz

Subjects

ENVIRONMENTAL protection, ENVIRONMENTALISTS, ENVIRONMENTAL remediation

Abstract

An introduction is presented in which the editor discusses various reports within the issue on topics including the management and preservation of species and the ecosystem, a new approach in freshwater fish conservation and the life trajectory of a jaguar.

Published

2018

5. Trait-based plant ecology a flawed tool in climate studies? The leaf traits of wild olive that pattern with climate are not those routinely measured.

Author

Kassout, Jalal, Terral, Jean-Frederic, Hodgson, John G., and Ater, Mohammed

Subjects

PLANT ecology, CLIMATE extremes, CLIMATE change, PRINCIPAL components analysis, OLIVE, CLIMATOLOGY

Abstract

Climate-related studies have generally focussed upon physiologically well-defined ‘mechanistic’ traits rather than ‘functional’ ones relating indirectly to resource capture. Nevertheless, field responses to climate are likely to typically include both ‘mechanistic’ specialization to climatic extremes and ‘functional’ strategies that optimize resource acquisition during less climatically-severe periods. Here, this hypothesis was tested. Seventeen traits (six ‘functional’, six ‘mechanistic’ and five ‘intermediate’) were measured from 19 populations of oleaster (wild olive) along a climatic gradient in Morocco. Principal components analysis of the trait dataset identified size and the ‘worldwide leaf economics spectrum’ as PCA axes 1 and 2. However, contrary to our prediction, these axes, and commonly-measured ‘functional’ traits, were little correlated with climate. Instead, PCA 3, perhaps relating to water-use and succulence, together stomatal density, specific leaf water content and leaf shape, patterned with altitude, aridity, rainfall and temperature. We concluded that, at least for slow-growing species, such as oleaster, ‘mechanistic’ traits are key to identifying mechanisms of climatic restriction. Meaningful collaboration between ‘mechanistic’ and ‘functional’ disciplines provides the best way of improving our understanding of the global impacts of climate change on species distribution and performance. [ABSTRACT FROM AUTHOR]

Published

2019

6. Using climate envelope models to identify potential ecological trajectories on the Kenai Peninsula, Alaska.

Author

Magness, Dawn Robin and Morton, John M.

Subjects

CLIMATE change, ATMOSPHERIC models, PLANT communities, MOUNTAIN plants

Abstract

Managers need information about the vulnerability of historical plant communities, and their potential future conditions, to respond appropriately to landscape change driven by global climate change. We model the climate envelopes of plant communities on the Kenai Peninsula in Southcentral Alaska and forecast to 2020, 2050, and 2080. We assess 6 model outputs representing downscaled climate data from 3 global climate model outputs and 2 representative concentration pathways. We use two lines of evidence, model convergence and empirically measured rates of change, to identify the following plausible ecological trajectories for the peninsula: (1.) alpine tundra and sub-alpine shrub decrease, (2.) perennial snow and ice decrease, (3.) forests remain on the Kenai Lowlands, (4.) the contiguous white-Lutz-Sitka spruce complex declines, and (5.) mixed conifer afforestation occurs along the Gulf of Alaska coast. We suggest that converging models in the context of other lines of evidence is a viable approach to increase certainty for adaptation planning. Extremely dynamic areas with multiple outcomes (i.e., disagreement) among models represent ecological risk, but may also represent opportunities for facilitated adaptation and other managerial approaches to help tip the balance one way or another. By reducing uncertainty, this eclectic approach can be used to inform expectations about the future. [ABSTRACT FROM AUTHOR]

Published

2018

7. Assessing the vulnerability of freshwater fishes to climate change in Newfoundland and Labrador.

Author

Olusanya, Hope O. and van Zyll de Jong, M.

Subjects

FRESH water, ECOLOGICAL succession, MARKET volatility, EVOLUTIONARY theories

Abstract

Freshwater fish populations are rapidly declining globally due to the impacts of rapid climate change and existing non-climatic anthropogenic stressors. In response to these drivers, freshwater fishes are responding by shifting their distribution range, altering the timing of migration and spawning and through demographic processes. By 2050, the mean daily air temperature is predicted to increase by 2 to 3 degrees C in insular Newfoundland and by 3 to 4 degrees C in Labrador. Mean daily precipitation is also projected to increase in all locations, with increased intensity projected for several regions. To mitigate negative consequences of these changes, managers require analytical approaches that describe the vulnerability of fish to climate change. To address this need, the current study adopts the National Marine Fisheries Service vulnerability assessment framework to characterize the vulnerability of freshwater fishes in Newfoundland and Labrador. Twelve vulnerability indicators were developed from an extensive literature review and applied to the assessment. Experts were solicited using an online questionnaire survey and scores for exposure, sensitivity and adaptive capacity were collated and analyzed to derive a final vulnerability score and rank for each species. The analysis showed one species to be of high—very high vulnerability, two species were highly vulnerable while four species were moderately vulnerable to climate change. The result provides insight into the factors that drive vulnerability of freshwater fishes in the region, this information is significant to decision-makers and other stakeholders engaged in managing freshwater fish resources in Newfoundland and Labrador. [ABSTRACT FROM AUTHOR]

Published

2018

8. Incorporating abundance information and guiding variable selection for climate-based ensemble forecasting of species' distributional shifts.

Author

Tanner, Evan P., Papeş, Monica, Elmore, R. Dwayne, Fuhlendorf, Samuel D., and Davis, Craig A.

Subjects

ECOLOGICAL niche, CLIMATE change, SPECIES distribution, STATISTICAL correlation, MATHEMATICAL variables

Abstract

Ecological niche models (ENMs) have increasingly been used to estimate the potential effects of climate change on species’ distributions worldwide. Recently, predictions of species abundance have also been obtained with such models, though knowledge about the climatic variables affecting species abundance is often lacking. To address this, we used a well-studied guild (temperate North American quail) and the Maxent modeling algorithm to compare model performance of three variable selection approaches: correlation/variable contribution (CVC), biological (i.e., variables known to affect species abundance), and random. We then applied the best approach to forecast potential distributions, under future climatic conditions, and analyze future potential distributions in light of available abundance data and presence-only occurrence data. To estimate species’ distributional shifts we generated ensemble forecasts using four global circulation models, four representative concentration pathways, and two time periods (2050 and 2070). Furthermore, we present distributional shifts where 75%, 90%, and 100% of our ensemble models agreed. The CVC variable selection approach outperformed our biological approach for four of the six species. Model projections indicated species-specific effects of climate change on future distributions of temperate North American quail. The Gambel’s quail (Callipepla gambelii) was the only species predicted to gain area in climatic suitability across all three scenarios of ensemble model agreement. Conversely, the scaled quail (Callipepla squamata) was the only species predicted to lose area in climatic suitability across all three scenarios of ensemble model agreement. Our models projected future loss of areas for the northern bobwhite (Colinus virginianus) and scaled quail in portions of their distributions which are currently areas of high abundance. Climatic variables that influence local abundance may not always scale up to influence species’ distributions. Special attention should be given to selecting variables for ENMs, and tests of model performance should be used to validate the choice of variables. [ABSTRACT FROM AUTHOR]

Published

2017

9. Apparent climate-mediated loss and fragmentation of core habitat of the American pika in the Northern Sierra Nevada, California, USA.

Author

Stewart, Joseph A. E., Wright, David H., and Heckman, Katherine A.

Subjects

CLIMATE change, CLIMATOLOGY, AMERICAN pika, ATMOSPHERIC sciences, METEOROLOGY

Abstract

Contemporary climate change has been widely documented as the apparent cause of range contraction at the edge of many species distributions but documentation of climate change as a cause of extirpation and fragmentation of the interior of a species’ core habitat has been lacking. Here, we report the extirpation of the American pika (Ochotona princeps), a temperature-sensitive small mammal, from a 165-km2 area located within its core habitat in California’s Sierra Nevada mountains. While sites surrounding the area still maintain pikas, radiocarbon analyses of pika fecal pellets recovered within this area indicate that former patch occupancy ranges from before 1955, the beginning of the atmospheric spike in radiocarbon associated with above ground atomic bomb testing, to c. 1991. Despite an abundance of suitable rocky habitat climate warming appears to have precipitated their demise. Weather station data reveal a 1.9°C rise in local temperature and a significant decline in snowpack over the period of record, 1910–2015, pushing pika habitat into increasingly tenuous climate conditions during the period of extirpation. This is among the first accounts of an apparently climate-mediated, modern extirpation of a species from an interior portion of its geographic distribution, resulting in habitat fragmentation, and is the largest area yet reported for a modern-era pika extirpation. Our finding provides empirical support to model projections, indicating that even core areas of species habitat are vulnerable to climate change within a timeframe of decades. [ABSTRACT FROM AUTHOR]

Published

2017

10. Impacts of Climate Change on the Global Invasion Potential of the African Clawed Frog Xenopus laevis.

Author

Ihlow, Flora, Courant, Julien, Secondi, Jean, Herrel, Anthony, Rebelo, Rui, Measey, G. John, Lillo, Francesco, De Villiers, F. André, Vogt, Solveig, De Busschere, Charlotte, Backeljau, Thierry, and Rödder, Dennis

Subjects

XENOPUS laevis, CLIMATE change, BIODIVERSITY, BIOTIC communities, BIOLOGICAL invasions

Abstract

By altering or eliminating delicate ecological relationships, non-indigenous species are considered a major threat to biodiversity, as well as a driver of environmental change. Global climate change affects ecosystems and ecological communities, leading to changes in the phenology, geographic ranges, or population abundance of several species. Thus, predicting the impacts of global climate change on the current and future distribution of invasive species is an important subject in macroecological studies. The African clawed frog (Xenopus laevis), native to South Africa, possesses a strong invasion potential and populations have become established in numerous countries across four continents. The global invasion potential of X. laevis was assessed using correlative species distribution models (SDMs). SDMs were computed based on a comprehensive set of occurrence records covering South Africa, North America, South America and Europe and a set of nine environmental predictors. Models were built using both a maximum entropy model and an ensemble approach integrating eight algorithms. The future occurrence probabilities for X. laevis were subsequently computed using bioclimatic variables for 2070 following four different IPCC scenarios. Despite minor differences between the statistical approaches, both SDMs predict the future potential distribution of X. laevis, on a global scale, to decrease across all climate change scenarios. On a continental scale, both SDMs predict decreasing potential distributions in the species’ native range in South Africa, as well as in the invaded areas in North and South America, and in Australia where the species has not been introduced. In contrast, both SDMs predict the potential range size to expand in Europe. Our results suggest that all probability classes will be equally affected by climate change. New regional conditions may promote new invasions or the spread of established invasive populations, especially in France and Great Britain. [ABSTRACT FROM AUTHOR]

Published

2016

11. Mesolithic projectile variability along the southern North Sea basin (NW Europe): Hunter-gatherer responses to repeated climate change at the beginning of the Holocene

Author

Philippe Crombé

Subjects

Atmospheric Science, Environmental change, BELGIUM, Mesolithic Period, Social Sciences, Stone Age, Forests, 01 natural sciences, law.invention, Trees, Wildfires, Geographical Locations, law, 0601 history and archaeology, Radiocarbon dating, Holocene, Hunter-gatherer, History, Ancient, Climatology, Multidisciplinary, Quaternary Period, 060102 archaeology, Ecology, Eukaryota, Geology, 06 humanities and the arts, Plants, Radioactive Carbon Dating, Terrestrial Environments, Adaptation, Physiological, Europe, Geography, Archaeology, Medicine, North Sea, Weapons, TRANSITION, Research Article, 010506 paleontology, Science, Climate Change, MODELS, Climate change, Research and Analysis Methods, Ecosystems, ENVIRONMENTAL-CHANGE, Anthropology, Physical, Paleoclimatology, CHRONOLOGY, Humans, RECORDS, Mesolithic, Sea level, Chemical Characterization, 0105 earth and related environmental sciences, Isotope Analysis, Holocene Epoch, LAND-USE, History and Archaeology, AREA, Ecology and Environmental Sciences, Radiometric Dating, Organisms, Biology and Life Sciences, Paleontology, Geologic Time, Bayes Theorem, BP EVENT, Archaeological Dating, People and Places, Earth Sciences, Cenozoic Era, Physical geography, VEGETATION, Pines

Abstract

This paper investigates how former hunter-gatherers living along the southern North Sea coast in NW Europe adapted to long-term and short-term climatic and environmental changes at the beginning of the Holocene. It is argued that contemporaneous hunter-gatherers repeatedly changed their hunting equipment in response to changing climate and environment, not just for functional reasons but mainly driven by socio-territorial considerations. Based on a Bayesian analysis of 122 critically selected radiocarbon dates a broad chronological correlation is demonstrated between rapid changes in the design and technology of stone projectiles and short but abrupt cooling events, occurring at 10.3, 9.3 and 8.2 ka cal BP. Combined with the rapid sea level rises and increased wildfires these climatic events probably impacted the lifeways of hunter-gatherers in such a way that they increasingly faced resource stress and competition, forcing them to invest in the symbolic defense of their social territories.

Published

2019

12. Niche shifts and the potential distribution of Phenacoccus solenopsis (Hemiptera: Pseudococcidae) under climate change

Author

Hufang Zhang, Jiufeng Wei, Wanqing Zhao, and Qing Zhao

Subjects

0106 biological sciences, Atmospheric Science, Invasive Species, lcsh:Medicine, Cotton, 01 natural sciences, Invasive species, Geographical Locations, Mathematical and Statistical Techniques, lcsh:Science, Flowering Plants, Climatology, Principal Component Analysis, Multidisciplinary, biology, Ecology, Temperature, Plants, Geography, Habitat, Physical Sciences, Ecological Niches, Statistics (Mathematics), Research Article, Climate Change, Niche, Oceania, Climate change, Research and Analysis Methods, 010603 evolutionary biology, Hemiptera, Species Colonization, Animals, Ecosystem, Mealybug, Statistical Methods, Ecological niche, Ecology and Environmental Sciences, lcsh:R, Australia, Organisms, Biology and Life Sciences, South America, biology.organism_classification, 010602 entomology, People and Places, North America, Multivariate Analysis, Earth Sciences, lcsh:Q, PEST analysis, Mathematics, Software

Abstract

The cotton mealybug, Phenacoccus solenopsis Tinsley (Hemiptera: Pseudococcidae), is a serious invasive species that significantly damages plants of approximately 60 families around the world. It is originally from North America and has also been introduced to other continents. Our goals were to create a current and future potential global distribution map for this pest under climate change with MaxEnt software. We tested the hypothesis of niche conservatism for P. solenopsis by comparing its native niche in North America to its invasive niches on other continents using Principal components analyses (PCA) in R. The potentially suitable habitat for P. solenopsis in its native and non-native ranges is presented in the present paper. The results suggested that the mean temperature of the wettest quarter and the mean temperature of the driest quarter are the most important environmental variables determining the potential distribution of P. solenopsis. We found strong evidence for niche shifts in the realized climatic niche of this pest in South America and Australia due to niche unfilling; however, a niche shift in the realized climatic niche of this pest in Eurasian owing to niche expansion.

Published

2017