Announcing Big-Bee: An initiative to promote understanding of bees through image and trait digitization

While bees are critical to sustaining a large proportion of global food production, as well as pollinating both wild and cultivated plants, they are decreasing in both numbers and diversity. Our understanding of the factors driving these declines is limited, in part, because we lack sufficient data on the distribution of bee species to predict changes in their geographic range under climate change scenarios. Additionally lacking is adequate data on the behavioral and anatomical traits that may make bees either vulnerable or resilient to human-induced environmental changes, such as habitat loss and climate change. Fortunately, a wealth of associated attributes can be extracted from the specimens deposited in natural history collections for over 100 years. Extending Anthophila Research Through Image and Trait Digitization (Big-Bee) is a newly funded US National Science Foundation Advancing Digitization of Biodiversity Collections project. Over the course of three years, we will create over one million high-resolution 2D and 3D images of bee specimens (Fig. 1), representing over 5,000 worldwide bee species, including most of the major pollinating species. We will also develop tools to measure bee traits from images and generate comprehensive bee trait and image datasets to measure changes through time. The Big-Bee network of participating institutions includes 13 US institutions (Fig. 2) and partnerships with US government agencies. We will develop novel mechanisms for sharing image datasets and datasets of bee traits that will be available through an open, Symbiota-Light (Gilbert et al. 2020) data portal called the Bee Library. In addition, biotic interaction and species association data will be shared via Global Biotic Interactions (Poelen et al. 2014). The Big-Bee project will engage the public in research through community science via crowdsourcing trait measurements and data transcription from images using Notes from Nature (Hill et al. 2012). Training and professional development for natural history collection staff, researchers, and university students in data science will be provided through the creation and implementation of workshops focusing on bee traits and species identification. We are also planning a short, artistic college radio segment called "the Buzz" to get people excited about bees, biodiversity, and the wonders of our natural world.

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Roman Climate Awareness in Pliny the Elder’s Natural History

Classical Antiquity ◽

10.1525/ca.2021.40.2.249 ◽

2021 ◽

Vol 40 (2) ◽

pp. 249-282

Author(s):

Jane Millar

Keyword(s):

Climate Change ◽

Natural History ◽

Lived Experience ◽

Historical Context ◽

Natural World ◽

Source Material ◽

Agricultural Labor ◽

Agricultural Communities ◽

The Subject ◽

Untapped Resource

This article examines the past and potential contributions of Pliny the Elder’s Natural History (NH) on the subject of Roman perceptions and experiences of environmental change. It asks in particular how classicists, archaeologists, and environmental historians can responsibly use the NH as a source on ancient climate. First, it briefly reviews relevant topics in the paleoclimatology of the Roman world, a rapidly advancing discipline enabling the identification of ancient climate changes with increasing precision and confidence (I). The article then turns to the reliability of Pliny as an authority on ancient climate by examining his accuracy, objectivity, and use of source material in literary and historical context, including his rhetorical goals, which have gone understudied until quite recently (II). A close reading of passages on environmental and climate change follows, highlighting areas in which Pliny’s observations are at odds with his source material. The examples discussed demonstrate the importance of phenology (III) and meteorology (IV) in Pliny’s encyclopedic account of the natural world, one characterized by anthropocentrism, pragmatism, and an emphasis on local knowledge. The evidence for ancient climate change is plentiful but not conclusive on the details and timing, and further studies will continue to refine local records. Rather than presenting a synthetic reconstruction based on Pliny’s observations, I argue that his encyclopedia offers an untapped resource on ancient climate and weather, not only by providing evidence of climate change, but also by recommending increased attention to seasonality, agricultural communities, and the lived experience of agricultural labor in order to better understand the effects of climate change on ancient populations.

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Temperature alters the physiological response of spiny lobsters under predation risk

Conservation Physiology ◽

10.1093/conphys/coaa065 ◽

2020 ◽

Vol 8 (1) ◽

Author(s):

Felipe A Briceño ◽

Quinn P Fitzgibbon ◽

Elias T Polymeropoulos ◽

Iván A Hinojosa ◽

Gretta T Pecl

Keyword(s):

Climate Change ◽

Predation Risk ◽

Environmental Changes ◽

Environmental Drivers ◽

Climate Change Scenarios ◽

Metabolic Rates ◽

Energetic Costs ◽

Predator Prey ◽

Predator Prey Model ◽

Spiny Lobsters

Abstract Predation risk can strongly shape prey ecological traits, with specific anti-predator responses displayed to reduce encounters with predators. Key environmental drivers, such as temperature, can profoundly modulate prey energetic costs in ectotherms, although we currently lack knowledge of how both temperature and predation risk can challenge prey physiology and ecology. Such uncertainties in predator–prey interactions are particularly relevant for marine regions experiencing rapid environmental changes due to climate change. Using the octopus (Octopus maorum)–spiny lobster (Jasus edwardsii) interaction as a predator–prey model, we examined different metabolic traits of sub adult spiny lobsters under predation risk in combination with two thermal scenarios: ‘current’ (20°C) and ‘warming’ (23°C), based on projections of sea-surface temperature under climate change. We examined lobster standard metabolic rates to define the energetic requirements at specific temperatures. Routine metabolic rates (RMRs) within a respirometer were used as a proxy of lobster activity during night and day time, and active metabolic rates, aerobic scope and excess post-exercise oxygen consumption were used to assess the energetic costs associated with escape responses (i.e. tail-flipping) in both thermal scenarios. Lobster standard metabolic rate increased at 23°C, suggesting an elevated energetic requirement (39%) compared to 20°C. Unthreatened lobsters displayed a strong circadian pattern in RMR with higher rates during the night compared with the day, which were strongly magnified at 23°C. Once exposed to predation risk, lobsters at 20°C quickly reduced their RMR by ~29%, suggesting an immobility or ‘freezing’ response to avoid predators. Conversely, lobsters acclimated to 23°C did not display such an anti-predator response. These findings suggest that warmer temperatures may induce a change to the typical immobility predation risk response of lobsters. It is hypothesized that heightened energetic maintenance requirements at higher temperatures may act to override the normal predator-risk responses under climate-change scenarios.

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Macrofaunal diversity gradients in Antarctic rocky benthic communities: Effects of glaciers and depth

10.7287/peerj.preprints.26846 ◽

2018 ◽

Author(s):

Luis Miguel Pardo ◽

Ignacio Garrido ◽

Paulina Bruning ◽

Charlotte Carrier ◽

Rossana Reveco ◽

...

Keyword(s):

Climate Change ◽

Species Diversity ◽

Salinity Tolerance ◽

Environmental Changes ◽

Anthropogenic Impacts ◽

Benthic Communities ◽

Future Climate Change ◽

Climate Change Scenarios ◽

Rocky Subtidal ◽

Diversity Gradients

Western Antarctic shows one of the fastest responses to climate change on Earth. Glacier meltdown and freshening are perhaps the most conspicuous evidence of anthropogenic impacts, that together with ice scouring can strongly modify benthic communities. The spatial extension of these impacts has been rarely explored in rocky subtidal environments. This study describes changes in benthic communities across glacier and bathymetric gradient in Fildes Bay, Antarctica. Suction samples were taken from four sites at increasing distance from the Collin glacier (0 - 2.5 – 5 - 7 km) and three depths (5 – 10 - 15 m). Macrofaunal diversity increased with depth across all distances from the glacier; these changes were associated with the increase in diversity of amphipods and echinoderms. The lowest and highest species diversity occurred at zero and two km from the glacier, indicating a strong, but localized, glacier effect. Variation in salinity tolerance and the abundance of key habitat forming algae could explain the spatial variation in these communities. This result remarks the importance of facilitation as a structuring force in Antarctic benthic communities. We suggest that the fate of communities in future climate-change scenarios will depend on how habitat-forming species respond to these environmental changes.

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Importance of Protection Service Against Erosion and Storm Events Provided by Coastal Ecosystems Under Climate Change Scenarios

Frontiers in Marine Science ◽

10.3389/fmars.2021.726145 ◽

2021 ◽

Vol 8 ◽

Author(s):

Jacinto Cunha ◽

Fábio Santos Cardona ◽

Ana Bio ◽

Sandra Ramos

Keyword(s):

Climate Change ◽

Extreme Events ◽

Environmental Changes ◽

Climate Change Scenarios ◽

Northern Coast ◽

Storm Events ◽

Property Damage ◽

Natural Habitats ◽

Coastal Habitats ◽

Trade Offs

Increasing sea level rise (SLR), and frequency and intensity of storms, paired with degrading ecosystems, are exposing coastal areas to higher risks of damage by storm events. Coastal natural habitats, such as dunes or saltmarshes, can reduce exposure of coastlines to these events and help to reduce the impacts and the potential damage to coastal property. The goal of our study was to evaluate the current vulnerability of the Portuguese northern coast to erosion and flooding caused by extreme events and to assess the contribution of natural habitats in reducing both vulnerability and property damages considering SLR scenarios. The Integrated Valuation of Environmental Services and Trade-offs (InVEST) Coastal Vulnerability model was used to produce an Exposure Index (EI) for the northern Portuguese coastline, for the current situation, and for future International Panel for Climate Change (IPCC) scenarios Representative Concentration Pathway (RCP) 2.6, RCP4.5, and RCP8.5, considering the presence and absence of coastal habitats. Results showed an increase in exposure with rising sea levels and expansion of high vulnerability areas. Coastal habitats contributed to a 28% reduction of high exposed segments for the Current scenario, corresponding to a potential reduction of coastal property damage of 105 M€ during extreme events. For the SLR scenarios, coastal habitats could potentially reduce the amount of property damage by 190 M€ in 2050 and 285 M€ in 2100, considering RCP8.5 projections. This study highlighted the importance of natural habitats in protecting vulnerable coastlines and reducing the potential damages to properties from flooding. Such results can be incorporated in management plans and support decision-making toward implementing an ecosystem-based approach to increase the resilience of coastal communities to cope with future environmental changes.

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Double trouble: the implications of climate change for biological invasions

NeoBiota ◽

10.3897/neobiota.62.55729 ◽

2020 ◽

Vol 62 ◽

pp. 463-487

Author(s):

Tamara B. Robinson ◽

Nicole Martin ◽

Tainã G. Loureiro ◽

Phikolomzi Matikinca ◽

Mark P. Robertson

Keyword(s):

Climate Change ◽

Biological Invasions ◽

Physiological Response ◽

Environmental Changes ◽

Biotic Interactions ◽

Institutional Capacity ◽

Invasion Success ◽

Invasion Process ◽

Management Actions ◽

Transit Times

The implications of climate change for biological invasions are multifaceted and vary along the invasion process. Changes in vectors and pathways are likely to manifest in changes in transport routes and destinations, together with altered transit times and traffic volume. Ultimately, changes in the nature of why, how, and where biota are transported and introduced will pose biosecurity challenges. These challenges will require increased human and institutional capacity, as well as proactive responses such as improved early detection, adaptation of present protocols and innovative legal instruments. Invasion success and spread are expected to be moderated by the physiological response of alien and native biota to environmental changes and the ensuing changes in biotic interactions. These in turn will likely affect management actions aimed at eradicating, containing, and mitigating invasions, necessitating an adaptive approach to management that is sensitive to potentially unanticipated outcomes.

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People and nature in the Fuerteventura Biosphere Reserve (Canary Islands): socio-ecological relationships under climate change

Environmental Conservation ◽

10.1017/s0376892917000169 ◽

2017 ◽

Vol 45 (1) ◽

pp. 20-29 ◽

Cited By ~ 11

Author(s):

MARÍA F. SCHMITZ ◽

CECILIA ARNAIZ-SCHMITZ ◽

CRISTINA HERRERO-JÁUREGUI ◽

PABLO DÍAZ ◽

DANIELA G.G. MATOS ◽

...

Keyword(s):

Climate Change ◽

Canary Islands ◽

Environmental Changes ◽

Biosphere Reserve ◽

Quantitative Model ◽

Climate Change Scenarios ◽

Adaptation To Climate Change ◽

Intergovernmental Panel ◽

Ecological Relationships ◽

Potential Interactions

SUMMARYThis paper analyses the interdependence between environment and society in terms of socio-ecological webs, in which human and biophysical systems are linked. A quantitative model, based on canonical correlation analysis applied in Fuerteventura Island (Canary Archipelago), detected indicators of human–landscape relationships and predicted potential shifts based on simulated environmental changes. In the last few decades, the landscape of Fuerteventura Island has changed: natural components and cultural agrarian uses have decreased, while the population has increased due to immigration, mainly from mainland Spain and other European countries. The island shows a transition from a coupled local socio-ecosystem to one based on the interaction between environment and coastal tourism that decouples native inhabitants from the landscape and traditional land-use practices. As vulnerability and adaptation to climate change represent critical sets of potential interactions in Canary Islands, a model and a map of the socio-ecological system under four Intergovernmental Panel on Climate Change scenarios show rural decoupling through ‘deagrarianization’ and ‘deruralization’, as well as stronger links to the tourism system.

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Effect of climate change on long-term river geometric variation in Andong Dam watershed, Korea

Journal of Water and Climate Change ◽

10.2166/wcc.2020.148 ◽

2020 ◽

Author(s):

Jong Mun Lee ◽

Jungkyu Ahn ◽

Young Do Kim ◽

Boosik Kang

Keyword(s):

Climate Change ◽

Water Quality ◽

Environmental Changes ◽

River Regulation ◽

Large River ◽

Future Climate Change ◽

Climate Change Scenarios ◽

Output Analysis ◽

Integrated Method ◽

Geometric Variation

Abstract Because of multifunctional weirs installed as part of large river regulation works in Korea, water quality problems have arisen from environmental changes in tandem with decreased flow rates. However, there has been limited research into the green algae removal effect, water quality improvement in congested waters, dam and weir operations, and consequential riverbed changes. Studies regarding outflow in a basin, the application and development of sediment load output analysis methods, feasibility of related dam operations, and riverbed patterns have been separately performed. However, basins and rivers should be analyzed by an integrated method instead of an individual one. Therefore, in the present study, the effect of congestion on a river connected to a dam/weir and estuary bank was analyzed based on climate change scenarios HadGEM3-RA RCP 4.5 and 8.5, with the aim of integrating individual studies using watershed and river models. Flow was controlled by dam- and weir-related discharge simulations. Variations in the riverbed caused by the transfer of suspended load in the downstream region were analyzed for both long and short durations. The results of this analysis suggest that given future climate change scenarios, the width of the river and riverbed variations in the riverbed are expected to rise.

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On species concepts, phylogenetics and the science of natural history—three current issues facing taxonomy

Megataxa ◽

10.11646/megataxa.1.1.14 ◽

2020 ◽

Vol 1 (1) ◽

pp. 67-72

Author(s):

MAARTEN J.M. CHRISTENHUSZ

Keyword(s):

Climate Change ◽

Risk Factor ◽

Natural History ◽

21St Century ◽

Natural World ◽

Species Concepts ◽

Impact Of Climate Change ◽

The Impact ◽

Changing World

Taxonomy faces some major challenges in the 21st Century (Godfray 2002). The threat to biodiversity comes largely from human overpopulation, but the impact of climate change is unprecedented (Pievani 2014) and increasingly a risk factor for many species. This makes it even more critical to rapidly catalogue our biodiversity to better protect it (Mace 2004). If you do not know what is there, it is impossible to know what we are losing, let alone protect something for which we have no name and cannot identify. Understanding diversity and the dynamics of evolution and speciation is important to discover the adaptability of species in a changing world dominated by humans (e.g. Harvey et al. 2014), but at the same time education about the natural world seems to have failed our children.Below I address three major questions or issues that are current in taxonomy, and natural history in the broader sense, related to species concepts, classification, communication and education.

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Impact of Climate Change on Olive Crop Production in Italy

Atmosphere ◽

10.3390/atmos11060595 ◽

2020 ◽

Vol 11 (6) ◽

pp. 595 ◽

Cited By ~ 4

Author(s):

Fabio Orlandi ◽

Jesús Rojo ◽

Antonio Picornell ◽

Jose Oteros ◽

Rosa Pérez-Badia ◽

...

Keyword(s):

Climate Change ◽

Crop Production ◽

Environmental Changes ◽

Negative Relationship ◽

Fruit Production ◽

Maximum Temperature ◽

Climate Change Scenarios ◽

Italian Provinces ◽

Production Trend ◽

Olive Pollen

The effects of climate change on agricultural systems raise important uncertainties about the future productivity and suitability of crops, especially in areas suffering from intense environmental changes. Olive groves occupy Mediterranean areas characterized by seasonal temporary droughts, which cause this cultivation to be highly dependent on local microclimatic conditions. Olive crop production can be reliably estimated using pollen intensity metrics together with post-pollination environmental conditions. In this study, we applied this kind of statistics-based models to identify the most relevant meteorological variables during the post-pollination periods for olive fruit production. Olive pollen time-series for the period of 1999–2012 was analyzed in 16 Italian provinces. Minimum and maximum temperature during spring and summer (March–August) showed a negative relationship with olive production, while precipitation always showed a positive correlation. The increase in aridity conditions observed in areas of Italy during the summer represents an important risk of decreasing olive crop production. The effect of climate change on the olive production trend is not clear because of the interactions between human and environmental factors, although some areas might show an increase in productivity in the near future under different climate change scenarios. However, as more drastic changes in temperature or precipitation take place, the risk to olive production will be considerably greater.

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