Professor Alistair Jump

Outputs related to Professor Alistair Jump

Showing 147 Outputs

Article

Klesse S, Peters RL, Alfaro-Sánchez R, Badeau V, Baittinger C, Battipaglia G, Bert D, Biondi F, Bosela M, Budeanu M, Čada V, Julio Camarero J, Cavin L, Claessens H & Jump AS (2024) No future growth enhancement expected at the northern edge for European beech due to continued water limitation. Global Change Biology, 30 (10), Art. No.: e17546. https://doi.org/10.1111/gcb.17546


Article

Nikinmaa L, Lindner M, Cantarello E, Gardiner B, Bredahl Jacobsen J, Jump AS, Parra C, Plieninger T, Schuck A, Seidl R, Timberlake T, Waring K, Winkel G & Muys B (2023) A balancing act: principles, criteria and indicator framework to operationalize social-ecological resilience of forests. Journal of Environmental Management, 331, Art. No.: 117039. https://doi.org/10.1016/j.jenvman.2022.117039


Article

Martinez del Castillo E, Zang CS, Buras A, Hacket-Pain A, Esper J, Serrano-Notivoli R, Hartl C, Weigel R, Klesse S, Resco de Dios V, Scharnweber T, Dorado-Liñán I, van der Maaten-Theunissen M, Jump A & Cavin L (2022) Climate-change-driven growth decline of European beech forests. Communications Biology, 5 (1), Art. No.: 163. https://doi.org/10.1038/s42003-022-03107-3


Article

Dorado-Liñán I, Ayarzagüena B, Babst F, Xu G, Gil L, Battipaglia G, Buras A, Čada V, Camarero JJ, Cavin L, Claessens H, Drobyshev I, Garamszegi B, Grabner M & Jump AS (2022) Jet stream position explains regional anomalies in European beech forest productivity and tree growth. Nature Communications, 13 (1), Art. No.: 2015. https://doi.org/10.1038/s41467-022-29615-8


Article

Lembrechts JJ, van den Hoogen J, Aalto J, Ashcroft MB, De Frenne P, Kemppinen J, Kopecký M, Luoto M, Maclean IMD, Crowther TW, Bailey JJ, Haesen S, Klinges DH, Niittynen P & Jump AS (2022) Global maps of soil temperature. Global Change Biology, 28 (9), pp. 3110-3144. https://doi.org/10.1111/gcb.16060


Article

West E, Morley PJ, Jump AS & Donoghue DNM (2022) Satellite data track spatial and temporal declines in European beech forest canopy characteristics associated with intense drought events in the Rhön Biosphere Reserve, Central Germany. Plant Biology. https://doi.org/10.1111/plb.13391


Article

Fouédjeu L, Saulnier M, Lejay M, Dušátko M, Labbas V, Jump AS, Burri S, Buscaino S & Py-Saragaglia V (2021) High resolution reconstruction of modern charcoal production kilns: an integrated approach combining dendrochronology, micromorphology and anthracology in the French Pyrenees. Quaternary International, 593-594, pp. 306-319. https://doi.org/10.1016/j.quaint.2020.11.033


Article

Lembrechts JJ, Aalto J, Ashcroft MB, De Frenne P, Kopecký M, Lenoir J, Luoto M, Maclean IMD, Roupsard O, Fuentes‐Lillo E, García RA, Pellissier L, Pitteloud C, Alatalo JM & Jump AS (2020) SoilTemp: a global database of near-surface temperature. Global Change Biology, 26 (11), pp. 6616-6629. https://doi.org/10.1111/gcb.15123


Letter

Zang CS, Buras A, Esquivel-Muelbert A, Jump AS, Rigling A & Rammig A (2020) Standardized drought indices in ecological research: why one size does not fit all. Refers to: Slette, IJ, Post, AK, Awad, M, et al. How ecologists define drought, and why we should do better. Glob Change Biol. 2019; 25: 3193– 3200. https://doi.org/10.1111/gcb.14747. Global Change Biology, 26 (2), pp. 322-324. https://doi.org/10.1111/gcb.14809


Book Chapter

Sotirov M, Weiss G, Marchetti M, Garcia S, Ecochard L, Hily E, Greenwood S & Jump A (2017) Policy Conclusions and Recommendations. In: Sotirov M (ed.) Natura 2000 and Forests: Assessing the State of Implementation and Effectiveness. What Science Can Tell Us, 7. Joensuu, Finland: European Forest Institute, pp. 135-143. http://www.efi.int/files/attachments/publications/wsctu7_2017.pdf


Book Chapter

Greenwood S, Jump A, Sotirov M, Marchetti M, Mikusinski G, Bastrup-Birk A, Brotons L, Hermoso V & Parviainen J (2017) Effectiveness of Natura 2000 in forests in EU-28. In: Sotirov M (ed.) Natura 2000 and Forests: Assessing the State of Implementation and Effectiveness. What Science Can Tell Us, 7. Joensuu, Finland: European Forest Institute, pp. 81-100. http://www.efi.int/files/attachments/publications/wsctu7_2017.pdf


Book Chapter

Marchetti M, Bastrup-Birk A, Parviainen J, Santopuoli G, Vizzarri M, Jump A & Sotirov M (2017) The state of biodiversity in Europe's forest systems. In: Sotirov M (ed.) Natura 2000 and Forests: Assessing the State of Implementation and Effectiveness. What Science Can Tell Us, 7. Joensuu, Finland: European Forest Institute, pp. 17-38. http://www.efi.int/files/attachments/publications/wsctu7_2017.pdf


Article

Ruiz-Benito P, Ratcliffe S, Zavala MA, Martínez‐Vilalta J, Vilà-Cabrera A, Lloret F, Madrigal‐González J, Wirth C, Greenwood S, Kändler G, Lehtonen A, Kattge J, Dahlgren J & Jump AS (2017) Climate- and successional-related changes in functional composition of European forests are strongly driven by tree mortality. Global Change Biology, 23 (10), pp. 4162-4176. https://doi.org/10.1111/gcb.13728


Article

Ruiz-Benito P, Ratcliffe S, Jump AS, Gómez-Aparicio L, Madrigal-González J, Wirth C, Kändler G, Lehtonen A, Dahlgren J, Kattge J & Zavala MA (2017) Functional diversity underlies demographic responses to environmental variation in European forests: Tree diversity and demography in European forests. Global Ecology and Biogeography, 26 (2), pp. 128-141. https://doi.org/10.1111/geb.12515


Article

Hacket-Pain AJ, Cavin L, Friend AD & Jump A (2016) Consistent limitation of growth by high temperature and low precipitation from range core to southern edge of European beech indicates widespread vulnerability to changing climate. European Journal of Forest Research, 135 (5), pp. 897-909. https://doi.org/10.1007/s10342-016-0982-7


Article

Matias L, Gonzalez Diaz P & Jump A (2014) Larger investment in roots in southern range-edge populations of Scots pine is associated with increased growth and seedling resistance to extreme drought in response to simulated climate change. Environmental and Experimental Botany, 105, pp. 32-38. https://doi.org/10.1016/j.envexpbot.2014.04.003


Article

Rouger R & Jump A (2014) A seascape genetic analysis reveals strong biogeographical structuring driven by contrasting processes in the polyploid saltmarsh species Puccinellia maritima and Triglochin maritima. Molecular Ecology, 23 (13), pp. 3158-3170. https://doi.org/10.1111/mec.12802


Conference Paper (unpublished)

Greenwood S, Chen T, Chen J & Jump A (2012) Causes and consequences of rapid shifts in species distributions above the closed forest zone in the Central Mountain Range, Taiwan. Vulnerable Isalnds in the Sky: Science and Management of Tropical Island Alpine and Sub-Alpine Ecosystems - Tropical Mountain Conference 2012, Hilo, HI, USA, 04.08.2012-08.08.2012.


Article

Matias L & Jump A (2012) Interactions between growth, demography and biotic interactions in determining species range limits in a warming world: the case of Pinus sylvestris. Forest Ecology and Management, 282, pp. 10-22. http://www.sciencedirect.com/science/article/pii/S0378112712003921; https://doi.org/10.1016/j.foreco.2012.06.053


Research Report

Llebot JE, Tabara JD, Llasat C & Jump A (2012) Second Report on Climate Change in Catalonia. Llebot J (Editor) Government of Catalonia. Generalitat de Catalunya. http://www.creaf.uab.cat/global-ecology/Pdfs_UEG/2012%20Climate%20Change.pdf


Conference Paper (unpublished)

Jump A (2010) Impacts of increasing drought on temperate forests: what we've seen so far and what may be yet to come. International Workshop on Adaptation of Perennial Plants to Episodic Drought: Impact on Ecosystems, Gottingen, Germany, 06.10.2010-08.10.2010. http://www.kliff-niedersachsen.de.vweb5-test.gwdg.de/wp-content/uploads/2010/11/Programm-Workshop-6-8.10.101.pdf


Book Chapter

Penuelas J, Filella I, Estiarte M, Ogaya R, Llusia J, Sardans J, Jump A, Yuste JC, Carnicer J, Rutishauser T, Rico L, Keenan TF, Garbulsky M, Coll M, Diaz de Quijano M, Seco R, Rivas-Ubach A, Lencart e Silva JD, Boada M, Stefanescu C, Lloret F & Terradas J (2010) Impactes, vulnerabilitat i retroalimentacions climàtiques als ecosistemes terrestres catalans. In: Llebot J (ed.) Segon informe sobre el canvi climàtic a Catalunya. Barcelona: Institut d'Estudis Catalans i Generalitat de Catalunya, pp. 373-407. http://www.casadellibro.com/libro-segon-informe-sobre-el-canvi-climatic-a-catalunya/9788439386155/1835308#


Book Chapter

Penuelas J, Estiarte M, Prieto P, Sardans J, Jump A, Moreno JM, Torres I, Cespedes B, Pla E, Sabate S & Gracia CA (2010) Projected Climate Change Impacts on Biodiversity in Mediterranean Ecosystems. In: Settele J, Penev L, Georgiev T, Grabaum R, Grobelnik V, Hammen V, Klotz S, Kotarac M & Kuhn I (eds.) Atlas of Biodiversity Risk. Sofia: Pensoft, pp. 76-77. http://www.pensoft.net/book/12/atlas-of-biodiversity-risk


Book Chapter

Penuelas J, Filella I, Estiarte M, Ogaya R, Llusia J, Sardans J, Jump A, Garbulsky M, Coll M, Diaz de Quijano M, Seco R, Blanch J, Owen SM, Yuste JC, Carnicer J, Boada M, Stefanescu C, Lloret F & Terradas J (2009) Constatacions biològiques del canvi climàtic a Catalunya. In: Prat N & Manzano A (eds.) Aigua i canvi climàtic: Diagnosi dels impactes previstos a Catalunya. Barcelona: Generalitat de Catalunya, pp. 43-52. http://www20.gencat.cat/docs/dmah/Home/El%20Departament/Publicacions/Col_leccions/Documents%20del%20canvi%20climatic/llibre_aigua_canvi_climatic.pdf


Book Chapter

Penuelas J, Jump A, Sardans J, Filella I, Estiarte M, Ogaya R, Llusia J, Owen SM & Lloret F (2008) From phosphorus and VOCs to biodiversity: some studies on the effects of global change inspired by Margalef's legacy. In: Valladares L, CAmacho A, Elosegi A, Gracia C, Estrada M, Senar J & Gili J (eds.) Unity in Diversity: Reflections on Ecology after the Legacy of Ramon Margalef. Bilboa, Spain: Fundacion BBVS, pp. 83-94. http://www.fbbva.es/TLFU/tlfu/ing/areas/medioamb/publicaciones/libros/fichalibro/index.jsp?codigo=266


Article

Penuelas J, Hunt JM, Ogaya R & Jump A (2008) Twentieth century changes of tree-ring delta C-13 at the southern range-edge of Fagus sylvatica: increasing water-use efficiency does not avoid the growth decline induced by warming at low altitudes. Global Change Biology, 14 (5), pp. 1076-1088. https://doi.org/10.1111/j.1365-2486.2008.01563.x