Poleward shifts in geographical ranges of butterfly species associated with regional warming

Parmesan, Camille; Ryrholm, Nils; Stefanescu, Constantí; Hill, Jane K.; Thomas, Chris D.; Descimon, Henri; Huntley, Brian; Kaila, Lauri; Kullberg, Jaakko; Tammaru, Toomas; Tennent, W. John; Thomas, J. A.; Warren, M. S.

doi:10.1038/21181

Cited by 1,902 publications

(1,623 citation statements)

References 11 publications

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“…Some insect species feeding on these plants have increased consumption and reduced growth (e.g., Bezemer and Jones, 1998;Veteli et al, 2002;Zvereva and Kozlov, 2006), and, therefore, may be subjected to natural enemies for a longer time under elevated CO 2 . Higher temperatures, on the other hand, may directly compensate for some of the negative effects of increased CO 2 ; increasing temperatures affect the distribution of some species by shifting ranges poleward and altitudinally upward (e.g., Parmesan et al, 1999;Battisti et al, 2005). The reason for these observed species range shifts can be a result of reducing extreme winter temperatures, increasing thermal sum, or subsequent changes in properties of the host plants.…”

Section: Discussionmentioning

confidence: 99%

Do Elevated Temperature and CO2 Generally Have Counteracting Effects on Phenolic Phytochemistry of Boreal Trees?

Veteli

Mattson²,

Niemelä

et al. 2007

J Chem Ecol

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Global climate change includes concomitant changes in many components of the abiotic flux necessary for plant life. In this paper, we investigate the combined effects of elevated CO 2 (720 ppm) and temperature (+2 K) on the phytochemistry of three deciduous tree species. The analysis revealed that elevated CO 2 generally stimulated increased carbon partitioning to various classes of phenolic compounds, whereas an increase in temperature had the opposite effect. The combined effects of both elevated CO 2 and temperature were additive, i.e., canceling one another's individual effects. Obviously, the effects of global climate change on leaf chemistry must simultaneously consider both temperature and CO 2 . If these results are generally applicable, then the counteracting effect of the temperature is likely to play a major role in alpine, boreal, and arctic zones in determining the balance between populations of plants and herbivores.

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Section: Discussionmentioning

confidence: 99%

Do Elevated Temperature and CO2 Generally Have Counteracting Effects on Phenolic Phytochemistry of Boreal Trees?

Veteli

Mattson²,

Niemelä

et al. 2007

J Chem Ecol

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“…Cramer & Leemans 1991;Harras & Prentice 2003), and observations and experiments (e.g. Hattenschwiler et al 1996;Parmesan 1996;Molau & Alatalo 1998;Parmesan et al 1999) have confirmed climate-induced changes in ecosystems.…”

Section: Introductionmentioning

confidence: 99%

Simulated distribution of vegetation types in response to climate change on the Tibetan Plateau

Song

Zhou

Ouyang

2005

J Vegetation Science

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Questions: What is the relationship between alpine vegetation patterns and climate? And how do alpine vegetation patterns respond to climate changes? Location: Tibetan Plateau, southwestern China. The total area is 2 500 000 km 2 with an average altitude over 4000 m. Methods:The geographic distribution of vegetation types on the Tibetan Plateau was simulated based on climatology using a small set of plant functional types (PFTs) embedded in the biogeochemistry-biography model BIOME4. The paleoclimate for the early Holocene was used to explore the possibility of simulating past vegetation patterns. Changes in vegetation patterns were simulated assuming continuous exponential increase in atmospheric CO 2 concentration, based on a transient ocean-atmosphere simulation including sulfate aerosol effects during the 21st century. Results: Forest, shrub steppe, alpine steppe and alpine meadow extended while no desert vegetation developed under the warmer and humid climate of the early Holocene. In the future climate scenario, the simulated tree line is farther north in most sectors than at present. There are also major northward shifts of alpine meadows and a reduction in shrubdominated montane steppe. The boundary between montane desert and alpine desert will be farther to the south than today. The area of alpine desert would decrease, that of montane desert would increase. Conclusions: The outline of changes in vegetation distribution was captured with the simulation. Increased CO2 concentration would potentially lead to big changes in alpine ecosystems.

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“…It should be born in mind that although a wide range of taxa have been shown to respond to climate change (Crick et al 1997;Parmesan et al 1999;Thomas and Lennon 1999;Pounds 2001;Fitter and Fitter 2002), most short-term local changes are provoked by land-use modifications or by stochasticity in the abundance and distribution of species; thus, the assignment of causality is mainly inferential. Importantly, the negative effects of climate change will thus merely be 'additive' to ongoing and increasing human-induced pressures.…”

Section: Perspectivesmentioning

confidence: 99%

An overview of wetlands of Saudi Arabia: Values, threats, and perspectives

Al-Obaid

Samraoui

Thomas

et al. 2016

Ambio

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The wetlands of Saudi Arabia are located in a water-stressed region that is highly vulnerable to climate and other global changes. Sebkhas, mudflats, mangroves, and wadis are the dominant wetlands in the arid regions of North Africa and the Arabian Peninsula. These unique wetlands are recognized as a sanctuary for biodiversity and for their economic services generated from mineral extraction, agriculture, and grazing. Despite their ecological values and societal services, the long-term permanence of Saudi Arabia's wetlands faces strong challenges resulting from human activities associated with sustained population growth, habitat degradation, and coastal development. This paper consolidates a literature review of Saudi Arabia's wetlands from local to global importance, highlights their biodiversity, and identifies threats and evolution of these vulnerable ecosystems in the arid Arabian Peninsula by focusing on the status of key freshwater taxa (Odonata, freshwater fishes, amphibians, and waterbirds) and documenting changes affecting important wetlands.

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Poleward shifts in geographical ranges of butterfly species associated with regional warming

Cited by 1,902 publications

References 11 publications

Do Elevated Temperature and CO2 Generally Have Counteracting Effects on Phenolic Phytochemistry of Boreal Trees?

Do Elevated Temperature and CO2 Generally Have Counteracting Effects on Phenolic Phytochemistry of Boreal Trees?

Simulated distribution of vegetation types in response to climate change on the Tibetan Plateau

An overview of wetlands of Saudi Arabia: Values, threats, and perspectives

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