Plants and climate change

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Title:

Series:

Tasks for vegetation science ; 41

Publication Information:

Dordrecht : Springer, 2006

ISBN:

9781402044427

9781402044434

General Note:

April 23, 2004 a symposium was held at the Vrije Universiteit, Amsterdam, The Netherlands, entitled Plants and (Present and Past) Climate Change on the occasion of the new Chair on Climate - Biosphere Interactions for Jelte Rozema

Reprinted from Plant ecology, vol. 182. no. 1-2 (2006)

Also available online version

Subject Term:

Plant ecology -- Congresses

Growth (Plants) -- Congresses

Climatic changes -- Congresses

Added Author:

Rozema, J.

Aerts, R. (Rien)

Cornelissen, Hans (Johannes Hans C.)

Electronic Access:

Full Text

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Library	Item Barcode	Call Number	Material Type	Item Category 1	Status
Searching... PSZ JB	30000010148690	QK754.5 P52 2006	Open Access Book	Book	Searching... Unknown

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Summary

Plants and Climate Change focuses on how climate affects or affected the biosphere and vice versa both in the present and past. The chapters describe how ecosystems from the Antarctic and Arctic and from other latitudes respond to global climate change.

The papers highlight plant responses to atmospheric CO2 increase, to global warming and to increased ultraviolet-B radiation as a result of stratospheric ozone depletion.

Depending on how and how well plant responses to increased temperature, atmospheric CO2 and ultraviolet-B have been preserved in the (sub)-fossil record, past climates and past atmospheric chemistry may be reconstructed. Pollen and tree-ring data reflect plant species composition and variation of temperature and precipitation over long or shorter time intervals. In addition to well preserved morphological and chemical plant properties, new analytical techniques such as stable isotopes are becoming increasingly important in this respect. The development and validation of such biotic climate and environment proxies build a bridge between biological and geological research. This highlights that plant-climate change research is becoming a multi- and transdisciplinary field of relevant research.

P. Convey and R.I.L. SmithR. Milla and J.H.C. Cornelissen and R.S.P. van Logtestijn and S. Toet and R. AertsS. Toet and J.H.C. Cornelissen and R. Aerts and R.S.P. van Logtestijn and M. de Beus and R. StoevelaarL.E. RustadR. Aerts and J.H.C. Cornelissen and E. DorrepaalA.H.L. Huiskes and H.T.S. Boschker and D. Lud and T.C.W. Moerdijk-PoortvlietP.H. Verburg and P.M. van Bodegom and H.A.C.D. van der Gon and A. Bergsma and N. van BreemenB. Solheim and M. Zielke and J.W. Bjerke and J. RozemaJ. Rozema and P. Boelen and B. Solheim and M. Zielke and A. Buskens and M. Doorenbosch and R. Fijn and J. Herder and T. Callaghan and L.O. Bjorn and D.G. Jones and R. Broekman and P. Blokker and W. van de PollP. Boelen and M.K. de Boer and N.V.J. de Bakker and J. RozemaJ. Rozema and P. Boelen and M. Doorenbosch and S. Bohncke and P. Blokker and C. Boekel and R.A. Broekman and M. KonertI. Poole and P.F. van BergenP. Blokker and P. Boelen and R. Broekman and J. RozemaJ.W. de Leeuw and G.J.M. Versteegh and P.F. van Bergen

Global climate change: atmospheric CO[subscript 2] enrichment, global warming and stratospheric ozone depletion
Responses of terrestrial Antarctic ecosystems to climate change	p. 1
Atmospheric CO[subscript 2] enrichment
Vascular plant responses to elevated CO[subscript 2] in a temperate lowland Sphagnum peatland	p. 13
Moss responses to elevated CO[subscript 2] and variation in hydrology in a temperate lowland peatland	p. 27
From transient to steady-state response of ecosystems to atmospheric CO[subscript 2]-enrichment and global climate change: conceptual challenges and need for an integrated approach	p. 43
Plant performance in a warmer world: general responses of plants from cold, northern biomes and the importance of winter and spring events	p. 65
Global warming
Stable isotope ratios as a tool for assessing changes in carbon and nutrient sources in Antarctic terrestrial ecosystems	p. 79
Upscaling regional emissions of greenhouse gases from rice cultivation: methods and sources of uncertainty	p. 89
Stratospheric ozone depletion
Effects of enhanced UV-B radiation on nitrogen fixation in arctic ecosystems	p. 109
Stratospheric ozone depletion: high arctic tundra plant growth on Svalbard is not affected by enhanced UV-B after 7 years of UV-B supplementation in the field	p. 121
Outdoor studies on the effects of solar UV-B on bryophytes: overview and methodology	p. 137
Reconstruction of Past Climates using plant derived proxies
A vegetation, climate and environment reconstruction based on palynological analyses of high arctic tundra peat cores (5000-6000 years BP) from Svalbard	p. 155
Physiognomic and chemical characters in wood as palaeoclimate proxies	p. 175
The occurrence of p-coumaric acid and ferulic acid in fossil plant materials and their use as UV-proxy	p. 197
Biomacromolecules of algae and plants and their fossil analogues	p. 209
Subject index / Species index	p. 235
Author index	p. 261

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