*
 

iForest - Biogeosciences and Forestry

*

Landscape genetics of fragmented forests: anticipating climate change by facilitating migration

MJM Smulders (1)   , MMP Cobben (1), P Arens (1), J Verboom (2)

iForest - Biogeosciences and Forestry, Volume 2, Issue 4, Pages 128-132 (2009)
doi: https://doi.org/10.3832/ifor0505-002
Published: Jul 30, 2009 - Copyright © 2009 SISEF

Review Papers

Collection/Special Issue: EFI 2008 Annual Conference Week - Orvieto (Italy)
Adaptation of Forest Landscape to Environmental Changes
Guest Editors: Giuseppe Scarascia Mugnozza (CRA - Rome, Italy)


Habitat fragmentation is a threat to the survival of species and causes population decline, as isolated populations are more susceptible to demographic and genetic stochasticity. This can be compensated for by sufficient spatial connectivity between habitat patches to allow dispersal of individuals among populations. In that case such a network of populations may effectively form a metapopulation. In this paper we discuss some aspects of metapopulation theory, notably with respect to maintaining genetic diversity in fragmented forest patches. In addition we will discuss recent studies that explore ways for forest management to anticipate and mitigate the expected climate change, in relation to range shifts and colonisation opportunities.

  Keywords


Genetic diversity, Management, Connectivity, Habitat fragmentation

Authors’ address

(1)
MJM Smulders
MMP Cobben
P Arens
Plant Research International, Wageningen UR, Wageningen (The Netherlands)
(2)
J Verboom
Alterra, Wageningen UR, Wageningen (The Netherlands)

Corresponding author

 
MJM Smulders
rene.smulders@wur.nl

Citation

Smulders MJM, Cobben MMP, Arens P, Verboom J (2009). Landscape genetics of fragmented forests: anticipating climate change by facilitating migration. iForest 2: 128-132. - doi: 10.3832/ifor0505-002

Academic Editor

Marco Borghetti

Paper history

Received: Apr 08, 2009
Accepted: Apr 09, 2009

First online: Jul 30, 2009
Publication Date: Jul 30, 2009
Publication Time: 3.73 months

Breakdown by View Type

(Waiting for server response...)

Article Usage

Total Article Views: 50062
(from publication date up to now)

Breakdown by View Type
HTML Page Views: 42351
Abstract Page Views: 2942
PDF Downloads: 3942
Citation/Reference Downloads: 86
XML Downloads: 741

Web Metrics
Days since publication: 5356
Overall contacts: 50062
Avg. contacts per week: 65.43

Article Citations

Article citations are based on data periodically collected from the Clarivate Web of Science web site
(last update: Feb 2023)

Total number of cites (since 2009): 11
Average cites per year: 0.73

 

Publication Metrics

by Dimensions ©

Articles citing this article

List of the papers citing this article based on CrossRef Cited-by.

 
(1)
Aguilar R, Quesada M, Ashworth L, Herrerias-Diego Y, Lobo J (2008)
Genetic consequences of habitat fragmentation in plant populations: susceptible signals in plant traits and methodological approaches. Molecular Ecology 17: 5177-5188.
CrossRef | Gscholar
(2)
Arens P, Coops H, Jansen J, Vosman B (1998)
Molecular genetic analysis of black poplar (Populus nigra L.) along Dutch rivers. Molecular Ecology 7: 11-18.
CrossRef | Gscholar
(3)
Arens P, Bijlsma RJ, van’t Westende W, van Os B, Smulders MJM, Vosman B (2005)
Genetic structure in populations of an ancient woodland sedge, Carex sylvatica Hudson, at a regional and local scale. Plant Biology 7: 387-396.
CrossRef | Gscholar
(4)
Battisti A (2008)
Forests and climate change - lessons from insects. iForest 1: 1-5.
CrossRef | Gscholar
(5)
Beier P, Majka DR, Spencer WD (2008)
Forks in the road: choices in procedures for designing wildland linkages. Conservation Biology 22: 836-851.
CrossRef | Gscholar
(6)
Burton OJ, Travis JMJ (2008)
Landscape structure and boundary effects determine the fate of mutations occurring during range expansions. Heredity 101: 329-340.
CrossRef | Gscholar
(7)
Geburek T, Konrad H (2008)
Why the conservation of forest genetic resources has not worked. Conservation Biology 22: 267-274.
CrossRef | Gscholar
(8)
Grashof-Bokdam CJ, Chardon JP, Vos CC, Foppen RPB, WallisDeVries M, van der Veen M, Meeuwsen HAM (2009)
The synergistic effect of combining woodlands and green veining for biodiversity. Landscape Ecology.
CrossRef | Gscholar
(9)
Honnay O, Jacquemyn H (2007)
Susceptibility of common and rare plant species to the genetic consequences of habitat fragmentation. Conservation Biology 21: 823-831.
CrossRef | Gscholar
(10)
Honnay O, Jacquemyn H, Bossuyt B, Hermy M (2005)
Forest fragmentation effects on patch occupancy and population viability of herbaceous plant species. New Phytologist 166: 723-736.
CrossRef | Gscholar
(11)
Jacquemyn H, Brys R, Honnay O, Hermy M (2008)
Effects of coppicing on demographic structure, fruit and seed set in Orchis mascula. Basic and Applied Ecology 9: 392-400.
CrossRef | Gscholar
(12)
Jacquemyn H, Brys R, Adriaens D, Honnay O, RoldaÌn-Ruiz I (2009)
Effects of population size and forest management on genetic diversity and structure of the tuberous orchid Orchis mascula. Conservation Genetics 10: 161-168.
CrossRef | Gscholar
(13)
Jump AS, Penuelas J (2006)
Genetic effects of chronic habitat fragmentation. Proceedings of the National Academy of Sciences USA 103 (21): 8096-8100.
CrossRef | Gscholar
(14)
Kramer AT, Ison JL, Ashley MV, Howe HF (2008a)
The paradox of forest fragmentation genetics. Conservation Biology 22: 878-885.
CrossRef | Gscholar
(15)
Kramer K, Buiteveld J, Forstreuter M, Geburek T, Leonardi S, Menozzi P, Povillon F, Schelhaas MJ, Teissier du Cros E, Vendramin GG, van der Werf DC (2008b)
Bridging the gap between ecophysiological and genetic knowledge to assess the adaptive potential of European beech. Ecological Modelling 216: 333-353.
CrossRef | Gscholar
(16)
Kremer A (2007)
How well can existing forests withstand climate change? In: “Climate change and forest genetic diversity: Implications for sustainable forest management in Europe” (Koskela, J, Buck, A, Teissier du Cros E eds). Bioversity International, Rome, Italy, pp. 3-17.
Gscholar
(17)
Kräuchi N (1993)
Potential impacts of a climate change o forest ecosystems. European Journal of Forest Pathology 23: 28-50.
CrossRef | Gscholar
(18)
Kräuchi N, Kienast F (1993)
Modelling subalpine forest dynamics as influenced by a changing environment. Water, Air, and Soil Pollution 68: 185-197.
CrossRef | Gscholar
(19)
Levins R (1969)
Some demographic and genetic consequences of environmental heterogeneity for biological control. Bulletin of the Entomological Society of America 15: 237-240.
CrossRef | Gscholar
(20)
Levins R (1970)
Extinction. In: “some mathematical problems in biology” (Gesternhaber M ed.). American Mathematical Society, Providence, Rhode Island, USA, pp. 77-107.
Gscholar
(21)
Lindgren D (2008)
Immediate genetic changes in tree deployment and breeding because of global warming. In: “International conference on adaptation of forests and forest management to changing climate with emphasis on forest health: a review of science, policies and practices”. Umea (Sweden) 25-28 August, 2008. Book of Abstracts and Preliminary Programme, pp. 147.
Online | Gscholar
(22)
Lindner M (2007)
How to adapt forest management in response to the challenges of climate change? In: “Climate change and forest genetic diversity: implications for sustainable forest management in Europe” (Koskela J, Buck A, Teissier du Cros E eds). Bioversity International, Rome, Italy. pp. 31-42.
Gscholar
(23)
Lowe AJ, Boshier D, Ward M, Bacles CFE, Navarro C (2005)
Genetic resource impacts of habitat loss and degradation; reconciling empirical evidence and predicted theory for neotropical trees. Heredity 95: 255-273.
CrossRef | Gscholar
(24)
Manning AD, Fischer J, Felton A, Newell B, Steffen W, Lindenmayer DB (2009)
Landscape fluidity - a unifying perspective for understanding and adapting to global change. Journal of Biogeography 36:193-199.
CrossRef | Gscholar
(25)
Mátyás C (1996)
Climatic adaptation of trees: rediscovering provenance tests. Euphytica 92: 45-54.
CrossRef | Gscholar
(26)
Mátyás C (2007)
What do field trials tell about the future use of forest reproductive material? In: “Climate change and forest genetic diversity: implications for sustainable forest management in Europe” (Koskela J, Buck A, Teissier du Cros E eds). Bioversity International, Rome, Italy, pp.53-69.
Gscholar
(27)
Rocha OJ, Aguilar G (2001)
Reproductive biology of the dry forest tree Enterolobium cyclocarpum (guanacaste) in Costa Rica: a comparison between trees left in pastures and trees in continuous forest. American Journal of Botany 88: 1607-1614.
CrossRef | Gscholar
(28)
Savolainen O, Bokma F, Knürr T, Kärkkäinen K, Pyhäjärvi T, Wachowiak W (2007a)
Adaptation of forest trees to climate change. In: “Climate change and forest genetic diversity: implications for sustainable forest management in Europe” (Koskela J, Buck A, Teissier du Cros E eds). Bioversity International, Rome, Italy, pp. 19-30.
Online | Gscholar
(29)
Savolainen O, Pyhäjärvi T, Knürr T (2007b)
Gene flow and local adaptation in trees. Annual Review of Ecology, Evolution and Systematics 38: 595-619.
CrossRef | Gscholar
(30)
Schippers P, Vos CC, Verboom J, Jochem R (2009)
Metapopulation dynamics under climate change: will species be able to track? (submitted).
Gscholar
(31)
Smulders MJM, Cottrell JE, Lefèvre F, van der Schoot J, Arens P, Vosman B, Tabbener HE, Grassi F, Fossati T, Castiglione S, Krystufek V, Fluch S, Burg K, Vornam B, Pohl A, Gebhardt K, Alba N, Agúndez D, Maestro C, Notivol E, Volosyanchuk R, Pospíšková M, Bordács S, Bovenschen J, van Dam BC, Koelewijn HP, Halfmaerten D, Ivens B, van Slycken J, Vanden A, Broeck, Storme V, Boerjan W (2008a)
Structure of the genetic diversity in Black poplar (Populus nigra L.) populations across European river systems: consequences for conservation and restoration. Forest Ecology and Management 255: 1388-1399.
CrossRef | Gscholar
(32)
Smulders MJM, Beringen R, Volosyanchuk R, Vanden Broeck A, van der Schoot J, Arens P, Vosman B (2008b)
Natural hybridization between Populus nigra L. and P. x canadensis Moench. Hybrid offspring competes for niches along the Rhine river in the Netherlands. Tree Genetics and Genomes 4: 663-675.
CrossRef | Gscholar
(33)
Sork VL, Smouse PE (2006)
Genetic analysis of landscape connectivity in tree populations. Landscape Ecology 21: 821-836.
CrossRef | Gscholar
(34)
St. Clair JB, Howe GT (2008)
Genetic maladaptation of coastal Douglas-fir seedlings to future climates. Global Change Biology 13: 1441-1454.
CrossRef | Gscholar
(35)
Waples RS, Gaggiotti O (2006)
What is a population? An empirical evaluation of some genetic methods for identifying the number of gene pools and their degree of connectivity. Molecular Ecology 15: 1419-1439.
CrossRef | Gscholar
 

This website uses cookies to ensure you get the best experience on our website. More info