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Pubblicazioni Scientifiche
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Pubblicazioni per anno
Spatio-temporal variability in structure and diversity in a semi-natural mixed oak-hornbeam floodplain forest
Grotti
,
Mirko
,
Chianucci
,
Francesco
,
Puletti
,
Nicola
,
Fardusi
,
Most Jannatul
,
Castaldi
,
Cristiano
,
Corona
,
P.
Mostra abstract
Mixed forests are particularly interesting for forest structure and diversity analyses, as higher complexity and diversity can be expected in these forests compared to pure ones. Integrating different approaches in the analyses of structure and diversity in these forests can provide complementary information on non-spatial, spatial and functional diversity patterns. The study aimed at evaluating the spatio-temporal dynamics in forest structure and diversity in a semi-natural mixed oak-hornbeam floodplain forest. All standing trees were mapped and inventoried in 1995, 2005 and 2016 in three 1-ha mixed forest stands, with different soil moisture regime (xeric, mesic, moist conditions). Traditional, non-spatial structure and diversity measures were coupled with spatially-explicit and functional diversity measures. Results indicated that the three stands showed limited variation in stand structure and similar non-spatial diversity attributes, despite the different species composition. Only the extension to spatial and functional analyses was able to reveal more pronounced differences of diversity patterns, as higher complexity, species mingling, and functional tree complementarity was observed in the moister stand. These findings support use of spatially-explicit measurements in traditional inventory measurement protocols to allow more refined analysis of diversity patterns. On the other hand, functional diversity can be easily implemented in diversity analyses, as it requires species abundance information (which is traditionally collected in forest inventory) and species-specific tree traits which can be inferred from literature. © 2019 Elsevier Ltd
TRY plant trait database – enhanced coverage and open access
Kattge
,
Jens
,
Bönisch
,
Gerhard
,
Díaz
,
Sandra M.
,
Lavorel
,
Sandra
,
Prentice
,
Iain Colin
,
Leadley
,
Paul W.
,
Tautenhahn
,
Susanne
,
Werner
,
Gijsbert
,
Aakala
,
Tuomas
,
Abedi
,
Mehdi
,
Acosta
,
Alicia Teresa Rosario
,
Adamidis
,
George C.
,
Adamson
,
Kairi
,
Aiba
,
Masahiro
,
Albert
,
Cécile Hélène
,
Alcántara
,
Julio M.
,
Alcázar C
,
Carolina
,
Aleixo
,
Izabela
,
Ali
,
Hamada E.
,
Amiaud
,
Bernard
,
Ammer
,
Christian
,
Amoroso
,
Mariano Martín
,
Anand
,
Madhur
,
Anderson
,
Carolyn G.
,
Anten
,
Niels P.R.
,
Antos
,
Joseph A.
,
Apgaua
,
Deborah Mattos Guimarães
,
Ashman
,
Tia Lynn
,
Asmara
,
Degi Harja
,
Asner
,
Gregory P.
,
Aspinwall
,
Michael J.
,
Atkin
,
Owen K.
,
Aubin
,
Isabelle
,
Baastrup-Spohr
,
Lars
,
Bahalkeh
,
Khadijeh
,
Bahn
,
Michael
,
Baker
,
Timothy R.
,
Baker
,
William J.
,
Bakker
,
Jan P.
,
Baldocchi
,
Dennis D.
,
Baltzer
,
Jennifer L.
,
Banerjee
,
Arindam
,
Baranger
,
Anne
,
Barlow
,
Jos B.
,
Barneche
,
Diego R.
,
Baruch
,
Zdravko
,
Bastianelli
,
Denis
,
Battles
,
John J.
,
Bauerle
,
William L.
,
Bauters
,
Marijn
,
Bazzato
,
Erika
,
Beckmann
,
Michael
,
Beeckman
,
Hans
,
Beierkuhnlein
,
Carl
,
Bekker
,
Renée M.
,
Belfry
,
Gavin
,
Belluau
,
Michaël
,
Beloiu Schwenke
,
Mirela
,
Benavides
,
Raquel
,
Benomar
,
Lahcen
,
Berdugo-Lattke
,
Mary Lee
,
Berenguer
,
Erika
,
Bergamin
,
Rodrigo Scarton
,
Bergmann
,
Joana
,
Carlucci
,
Marcos B.
,
Berner
,
Logan T.
,
Bernhardt-Römermann
,
Markus
,
Bigler
,
Christof
,
Bjorkman
,
Anne D.
,
Blackman
,
Chris J.
,
Blanco
,
Carolina Casagrande
,
Blonder
,
Benjamin Wong
,
Blumenthal
,
Dana M.
,
Bocanegra-González
,
Kelly Tatiana
,
Boeckx
,
Pascal
,
Bohlman
,
Stephanie Ann
,
Böhning-Gaese
,
Katrin
,
Boisvert-Marsh
,
Laura
,
Bond
,
William J.
,
Bond-Lamberty
,
Ben P.
,
Boom
,
Arnoud
,
Boonman
,
Coline C.F.
,
Bordin
,
Kauane Maiara
,
Boughton
,
Elizabeth H.
,
Boukili
,
Vanessa K.S.
,
Bowman
,
David M.J.S.
,
Bravo
,
Sandra Josefina
,
Brendel
,
Marco R.
,
Broadley
,
Martin R.
,
Brown
,
Kerry A.
,
Bruelheide
,
Helge
,
Brumnich
,
Federico
,
Bruun
,
Hans Henrik
,
Bruy
,
David
,
Buchanan
,
Serra Willow
,
Bucher
,
Solveig Franziska
,
Buchmann
,
Nina
,
Buitenwerf
,
Robert
,
Bunker
,
Daniel E.
,
Bürger
,
Jana
functional diversity
data coverage
data integration
data representativeness
plant traits
try plant trait database
Mostra abstract
Plant traits—the morphological, anatomical, physiological, biochemical and phenological characteristics of plants—determine how plants respond to environmental factors, affect other trophic levels, and influence ecosystem properties and their benefits and detriments to people. Plant trait data thus represent the basis for a vast area of research spanning from evolutionary biology, community and functional ecology, to biodiversity conservation, ecosystem and landscape management, restoration, biogeography and earth system modelling. Since its foundation in 2007, the TRY database of plant traits has grown continuously. It now provides unprecedented data coverage under an open access data policy and is the main plant trait database used by the research community worldwide. Increasingly, the TRY database also supports new frontiers of trait-based plant research, including the identification of data gaps and the subsequent mobilization or measurement of new data. To support this development, in this article we evaluate the extent of the trait data compiled in TRY and analyse emerging patterns of data coverage and representativeness. Best species coverage is achieved for categorical traits—almost complete coverage for ‘plant growth form’. However, most traits relevant for ecology and vegetation modelling are characterized by continuous intraspecific variation and trait–environmental relationships. These traits have to be measured on individual plants in their respective environment. Despite unprecedented data coverage, we observe a humbling lack of completeness and representativeness of these continuous traits in many aspects. We, therefore, conclude that reducing data gaps and biases in the TRY database remains a key challenge and requires a coordinated approach to data mobilization and trait measurements. This can only be achieved in collaboration with other initiatives. © 2019 The Authors. Global Change Biology published by John Wiley & Sons Ltd
Relationships between overstory and understory structure and diversity in semi-natural mixed floodplain forests at Bosco Fontana (Italy)
Chianucci
,
Francesco
,
Minari
,
Emma
,
Fardusi
,
Most Jannatul
,
Merlini
,
Paolo
,
Cutini
,
Andrea
,
Corona
,
P.
,
Mason
,
Franco
Mostra abstract
The "Bosco Fontana" natural reserve includes the last remaining mixed floodplain forest in northern Italy and one of the most endangered ecosystems in Europe. Its effective management is hindered by the complexity of interactions of mixed-tree species and the influence of environmental factors on understory plant diversity. In this study we analyzed the patterns of natural evolution in semi-natural floodplain forest stands at Bosco Fontana with the aim of better understanding its current natural processes and dynamics. Stand structure, taxonomic and functional diversity, species composition, and leaf area index (LAI) of overstory and understory layers were surveyed in permanent plots over two inventory years (1995, 2005). The influence of environmental factors on understory plant diversity was assessed using Ellenberg’s indices for light, soil moisture, soil nutrient and soil reaction. Results indicated that overstory species composition varies according to the soil moisture, with hornbeam prevailing in xeric sites and deciduous oak species in mesic sites. Xeric sites showed high functional dispersion in both drought and shade tolerant traits, while it was significantly lower in both overstory and understory in the moist site. Functional dispersion of drought tolerance in the overstory and understory layers was positively correlated, while species richness was negatively correlated between the two layers. Diversity in the understory was mainly correlated with soil conditions. Understory LAI was positively correlated with overstory LAI in xeric and mesic plots, while no correlations were found in the moist plot. Overall, our results suggest that site conditions (soil conditions and water availability) are the major drivers of understory and overstory dynamics in the study forest. Hence, local site conditions and the understory should be carefully considered in the management of mixed floodplain forests. © SISEF.