sg:pub.10.1007/s10342-015-0914-y - Springer Nature SciGraph

Article Info

DATE

2015-09-24

AUTHORS

Srđan Stojnić, Saša Orlović, Danijela Miljković, Zoran Galić, Marko Kebert, Georg von Wuehlisch

ABSTRACT

Climate change will affect European beech (Fagus sylvatica L.) ecosystems negatively due to well-known vulnerability of this species to drought. Phenotypic plasticity has been recognized as the primary means in rapid acclimation to adverse environmental conditions. Provenance trials of forest tree species represent a valuable tool for assessing provenance adaptive potential to changing environments. In the present study, we examined the adaptive response capability (plasticity) of certain leaf anatomical traits in different European beech provenances to contrasting environmental conditions prevailing in two provenance trials. While one location of the trials is an isolated, marginal site, the other is a site within the original geographic range of beech forests in Serbia. The study involved 12 provenances originating from Austria, Bosnia and Herzegovina, Croatia, Germany, Hungary, Romania and Serbia. The results of the study evidenced that genetic differences of the provenances are mainly responsible for the differences in leaf traits. Cluster analysis showed absence of association between provenances from the same geographic regions (e.g., Germany and Balkan Peninsula, respectively), revealing phenotypic heterogeneity between them. Steep reaction norms, observed for anatomical traits studied, indicate the possibility of plastic provenance response to changes in environmental conditions. The highest values of plasticity index, observed for stomatal density and thicknesses of palisade and spongy parenchyma, seem to be the result of a regulative function of stomata and mesophyll structure on physiological adaptation to the unfavorable growth conditions at the marginal site. Such sclerophyllous leaf structures, indicating drought resistance, were observed in certain provenances from Central/Eastern Europe and mesic sites, indicating that beech provenances from warmer sites in Southern Europe may not necessarily be the only source of drought-resistant ecotypes. More... »

PAGES

1109-1125

References to SciGraph publications

2000-08-29. Effects of drought on photoprotective mechanisms in European beech (Fagus sylvatica L.) seedlings from different provenances in TREES

2003-03. Within- and among-tree variation in leaf morphology of Quercus petraea (Matt.) Liebl. natural populations in TREES

2008-05-31. Leaf Size and Leaf Area Index in Fagus sylvatica Forests: Competing Effects of Precipitation, Temperature, and Nitrogen Availability in ECOSYSTEMS

2008-09-19. Phenotypic plasticity blurs ecotypic divergence in the response of Quercus coccifera and Pinus halepensis to water stress in EUROPEAN JOURNAL OF FOREST RESEARCH

1998. An Introduction to Environmental Biophysics in NONE

2012-01-31. Quantitative Assessment of Effects of Cadmium on the Histological Structure of Poplar and Willow Leaves in WATER, AIR, & SOIL POLLUTION

2009-03-20. Are marginal beech (Fagus sylvatica L.) provenances a source for drought tolerant ecotypes? in EUROPEAN JOURNAL OF FOREST RESEARCH

2006-11-23. Potential risks for European beech (Fagus sylvatica L.) in a changing climate in TREES

2014-01-29. Different reactions of central and marginal provenances of Fagus sylvatica to experimental drought in EUROPEAN JOURNAL OF FOREST RESEARCH

2012-03-23. Variation in functional leaf traits among beech provenances during a Spanish summer reflects the differences in their origin in TREE GENETICS & GENOMES

1997-06. Effect of photoperiod on some stomatal characteristics of in vitro cultured fruit tree shoots in PLANT CELL, TISSUE AND ORGAN CULTURE (PCTOC)

2012-02-16. Responses of leaf structure and photosynthetic properties to intra-canopy light gradients: a common garden test with four broadleaf deciduous angiosperm and seven evergreen conifer tree species in OECOLOGIA

2013-11-26. Adaptive evolution and phenotypic plasticity during naturalization and spread of invasive species: implications for tree invasion biology in BIOLOGICAL INVASIONS

2007-11-27. Relationships between vessel element anatomy and physiological as well as morphological traits of leaves in Fagus crenata seedlings originating from different provenances in TREES

2003-05-21. Structural and functional plasticity of Quercus ilex seedlings of different provenances in Italy in TREES

2006-06-07. Leaf plasticity in response to light of three evergreen species of the Mediterranean maquis in TREES

2002-08. The greater seedling high-light tolerance of Quercus robur over Fagus sylvatica is linked to a greater physiological plasticity in TREES

2006-09-06. Phenotypic plasticity in response to an irradiance gradient in Iris pumila: adaptive value and evolutionary constraints in PLANT ECOLOGY

2010-10-05. Preliminary characterization and morpho-agronomic evaluation of the olive germplasm collection of the Mendoza province (Argentina) in EUPHYTICA

1991. Genetic variation of the Croatian beech stands (Fagus sylvatica L): spatial differentiation in connection with the environment in ANNALES DES SCIENCES FORESTIÈRES

1993-11. Factors toxic to beech (Fagus sylvatica L.) seedlings in acid soils in PLANT AND SOIL

2015-02-25. Corylus avellana responsiveness to light variations: morphological, anatomical, and physiological leaf trait plasticity in PHOTOSYNTHETICA

Journal

TITLE

European Journal of Forest Research

ISSUE

VOLUME

134

Subjects

FOR: Agricultural And Veterinary Sciences

FOR: Forestry Sciences

Author Affiliations

Institute of Lowland Forestry and Environment, University of Novi Sad, Antona Čehova 13d, 21000, Novi Sad, Republic of Serbia

Department of Evolutionary Biology, Institute for Biological Research “Siniša Stanković”, University of Belgrade, Bulevar Despota Stefana 142, 11000, Belgrade, Republic of Serbia

Institute for Forest Genetics, Johann-Heinrich von Thünen-Institute, Sieker Landstrasse 2, 22927, Grosshansdorf, Germany

Identifiers

URI

http://scigraph.springernature.com/pub.10.1007/s10342-015-0914-y

DOI

http://dx.doi.org/10.1007/s10342-015-0914-y

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1028077169

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25	″	″	sg:pub.10.1051/forest:19910102
26	″	schema:datePublished	2015-09-24
27	″	schema:datePublishedReg	2015-09-24
28	″	schema:description	Climate change will affect European beech (Fagus sylvatica L.) ecosystems negatively due to well-known vulnerability of this species to drought. Phenotypic plasticity has been recognized as the primary means in rapid acclimation to adverse environmental conditions. Provenance trials of forest tree species represent a valuable tool for assessing provenance adaptive potential to changing environments. In the present study, we examined the adaptive response capability (plasticity) of certain leaf anatomical traits in different European beech provenances to contrasting environmental conditions prevailing in two provenance trials. While one location of the trials is an isolated, marginal site, the other is a site within the original geographic range of beech forests in Serbia. The study involved 12 provenances originating from Austria, Bosnia and Herzegovina, Croatia, Germany, Hungary, Romania and Serbia. The results of the study evidenced that genetic differences of the provenances are mainly responsible for the differences in leaf traits. Cluster analysis showed absence of association between provenances from the same geographic regions (e.g., Germany and Balkan Peninsula, respectively), revealing phenotypic heterogeneity between them. Steep reaction norms, observed for anatomical traits studied, indicate the possibility of plastic provenance response to changes in environmental conditions. The highest values of plasticity index, observed for stomatal density and thicknesses of palisade and spongy parenchyma, seem to be the result of a regulative function of stomata and mesophyll structure on physiological adaptation to the unfavorable growth conditions at the marginal site. Such sclerophyllous leaf structures, indicating drought resistance, were observed in certain provenances from Central/Eastern Europe and mesic sites, indicating that beech provenances from warmer sites in Southern Europe may not necessarily be the only source of drought-resistant ecotypes.
29	″	schema:genre	article
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33	″	″	Neab10dfcdab84dc191fa11e579ec54c4
34	″	″	sg:journal.1040667
35	″	schema:keywords	Austria
36	″	″	Bosnia
37	″	″	Central/Eastern Europe
38	″	″	Croatia
39	″	″	Eastern Europe
40	″	″	Europe
41	″	″	European beech (Fagus sylvatica L.) provenances
42	″	″	Germany
43	″	″	Herzegovina
44	″	″	Hungary
45	″	″	Romania
46	″	″	Serbia
47	″	″	absence
48	″	″	absence of association
49	″	″	acclimation
50	″	″	adaptation
51	″	″	adaptive potential
52	″	″	analysis
53	″	″	anatomical traits
54	″	″	association
55	″	″	beech ecosystems
56	″	″	beech forests
57	″	″	beech provenances
58	″	″	capability
59	″	″	certain provenances
60	″	″	changes
61	″	″	climate change
62	″	″	cluster analysis
63	″	″	common garden sites
64	″	″	conditions
65	″	″	density
66	″	″	differences
67	″	″	drought
68	″	″	drought resistance
69	″	″	ecosystems
70	″	″	ecotypes
71	″	″	environment
72	″	″	environmental conditions
73	″	″	forest
74	″	″	forest tree species
75	″	″	function
76	″	″	garden sites
77	″	″	genetic differences
78	″	″	geographic range
79	″	″	geographic regions
80	″	″	growth conditions
81	″	″	heterogeneity
82	″	″	higher values
83	″	″	index
84	″	″	leaf anatomical traits
85	″	″	leaf structure
86	″	″	leaf traits
87	″	″	location
88	″	″	marginal sites
89	″	″	means
90	″	″	mesic sites
91	″	″	mesophyll structure
92	″	″	norms
93	″	″	only source
94	″	″	palisade
95	″	″	parenchyma
96	″	″	phenotypic heterogeneity
97	″	″	phenotypic plasticity
98	″	″	physiological adaptations
99	″	″	plasticity
100	″	″	plasticity index
101	″	″	possibility
102	″	″	potential
103	″	″	present study
104	″	″	primary means
105	″	″	provenance
106	″	″	provenance trials
107	″	″	range
108	″	″	rapid acclimation
109	″	″	reaction norms
110	″	″	region
111	″	″	regulative function
112	″	″	resistance
113	″	″	response
114	″	″	response capability
115	″	″	results
116	″	″	same geographic region
117	″	″	sites
118	″	″	source
119	″	″	southern Europe
120	″	″	species
121	″	″	spongy parenchyma
122	″	″	steeper reaction norms
123	″	″	stomata
124	″	″	stomatal density
125	″	″	structure
126	″	″	study
127	″	″	thickness
128	″	″	thickness of palisade
129	″	″	tool
130	″	″	traits
131	″	″	tree species
132	″	″	trials
133	″	″	unfavorable growth conditions
134	″	″	valuable tool
135	″	″	values
136	″	″	vulnerability
137	″	″	warmer sites
138	″	schema:name	Provenance plasticity of European beech leaf traits under differing environmental conditions at two Serbian common garden sites
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