about
Old and new challenges in using species diversity for assessing biodiversity.Plant movements and climate warming: intraspecific variation in growth responses to nonlocal soils.A test of the scale-dependence of the species abundance-people correlation for veteran trees in Italy.Using taxonomic data to assess and monitor biodiversity: are the tribes still fighting?Plant recording across two centuries reveals dramatic changes in species diversity of a Mediterranean archipelagoDesign concepts adopted in long-term forest monitoring programs in Europe--problems for the future?Uniqueness of Protected Areas for Conservation Strategies in the European Union.Quantifying the effects of nutrient addition on community diversity of serpentine vegetation using parametric entropy of type αCommonness and rarity of plants in a reserve network: just two faces of the same coinScale dependence of plant species richness in a network of protected areasAnthropogenic drivers of plant diversity: perspective on land use change in a dynamic cultural landscapeLandscape structure effects on forest plant diversity at local scale: Exploring the role of spatial extentAbsence of distance decay in the similarity of plots at small extent in an urban brownfieldEffects of an afforestation process on plant species richness: A retrogressive analysisThe spatial domain matters: Spatially constrained species rarefaction in a Free and Open Source environmentAccounting for uncertainty when mapping species distributions: The need for maps of ignoranceGeostatistical modelling of regional bird species richness: exploring environmental proxies for conservation purposeLandscape metrics and topographical determinants of large-scale forest dynamics in a Mediterranean landscapeSimple to sample: Vascular plants as surrogate group in a nature reserveMulti-scale sampling and statistical linear estimators to assess land use status and changeRelating spectral and species diversity through rarefaction curvesSpatially constrained rarefaction: incorporating the autocorrelated structure of biological communities into sample-based rarefactionDiscovering and rediscovering the sample-based rarefaction formula in the ecological literaturePlanning restoration in a cultural landscape in Italy using an object-based approach and historical analysisQuantifying plant species diversity in a Natura 2000 network: Old ideas and new proposalsQuantifying species richness at multiple spatial scales in a Natura 2000 networkSpectral rarefaction: linking ecological variability and plant species diversityThe role of regional and local scale predictors for plant species richness in Mediterranean forestsMulti-stage cluster sampling for estimating average species richness at different spatial grainsLandscape change and the dynamics of open formations in a natural reserveMaximizing plant species inventory efficiency by means of remotely sensed spectral distancesTesting the spectral variation hypothesis by using satellite multispectral imagesThe concept of potential natural vegetation: an epitaph?Biogeographical determinants of pteridophytes and spermatophytes on oceanic archipelagosAdditive partitioning as a tool for investigating the flora diversity in oceanic archipelagosTowards a global terrestrial species monitoring programCan we compare lichen diversity data? A test with skilled teamsMapping patterns of ferns species richness through the use of herbarium dataJournal of Vegetation Sciencein 2015: journal growth, celebrations and awardsPlant communities: their conservation assessment and surveys across continents and in the tropics
P50
Q30394906-A4176F4F-B233-4274-912D-6DFCF0CA155EQ30725756-109E6BBA-0E64-412A-A65E-708376CE3BD2Q33318181-2680ECA5-5301-4F25-B0DE-A5044C54D64CQ33474906-275E3477-7461-4015-B54D-9AA314BF6FF7Q33905961-2F3CB98C-6067-44EE-8E9A-1411BBB4A5C5Q40580523-B633730F-BCE3-40BC-BD3E-5D11D4377CE9Q52565474-26795966-6D69-4CF3-9F42-E95FD20E4D7FQ55870697-9706F7D7-9072-43F1-9E32-4C05180139F9Q56448939-4142D876-7C2B-4BA1-8481-2E02C577E3F9Q56575270-A4C3CFD9-1AC9-4388-ADE0-54CE80DC2B3FQ56754535-D1146AAE-B887-4CBB-92E4-65B05CA8CBD1Q56754539-5BEB8C4D-E47D-4948-9982-97BE91EFAA06Q56754563-E2C9634B-BCFF-4D3B-AE1A-B61D883CCF5BQ56754565-CCFCC50A-8825-4923-81E9-E979AD9E59B0Q56754575-C08D8868-D03E-4F5A-A72E-7CF0120AD641Q56754576-B1160857-AB5D-4510-9793-55CFC8BD1A31Q56754582-012308F7-C8D3-4CCE-8A16-998491B86C6AQ56754604-884D17B2-7395-4980-BABC-213B4007A337Q56754607-0984203E-C447-4E1D-A91E-5521E7F9B965Q56754611-FE401B31-4C36-4F59-BF59-1BA19056C421Q56754615-D1846237-E42F-48B5-8207-AF7CEC96DFE6Q56754617-28098939-8C1F-46A7-ABDB-93FEBCA18A67Q56754619-9F5EE3E1-3BD9-4823-A344-CD2C2683C5ECQ56754622-E3F73C10-031C-4253-A57B-2F0F82A4A28BQ56754623-58DA60D0-3C68-4D60-95F6-4E6B58421B54Q56754624-B6FDAD5F-6D79-4F7F-9144-DD30616AA694Q56754626-640D352C-966C-43B7-80C9-415CE18F745CQ56754627-EBA262DF-A484-42AE-9324-F0A2506EC8D7Q56754633-724B4A05-0556-4C2A-A11A-427FBEB90C04Q56754634-6E463480-2A9F-4B79-93AF-C8118A3F8B08Q56754635-15AC32A3-D15E-4E79-B84A-D63354EA9147Q56754638-F31F31D8-E436-4159-9967-F53C2DC20C60Q56879834-7F3357DA-3F9D-4FC0-A041-8F3E7F5BB6B8Q56960344-0EA029C1-C418-4FC9-BF88-F86BB6BCC55EQ56960380-663A4D4E-CDF7-442A-9974-D56E404C67AEQ57009200-9C45F2D9-35E0-4D4B-8DA8-C631D55F033BQ57030405-FC0E470A-C039-436A-B2B5-345489AD6CBFQ57031128-DA2B7938-CED5-48EF-AA93-267952307FE7Q57034972-AFE27996-3D76-4D30-AD18-9774D8ADA8B0Q57035005-3E0D6D68-9B1C-4CE6-AD61-ADE27D7ADA23
P50
description
researcher
@en
ricercatore
@it
wetenschapper
@nl
հետազոտող
@hy
name
Alessandro Chiarucci
@ast
Alessandro Chiarucci
@en
Alessandro Chiarucci
@es
Alessandro Chiarucci
@nl
type
label
Alessandro Chiarucci
@ast
Alessandro Chiarucci
@en
Alessandro Chiarucci
@es
Alessandro Chiarucci
@nl
prefLabel
Alessandro Chiarucci
@ast
Alessandro Chiarucci
@en
Alessandro Chiarucci
@es
Alessandro Chiarucci
@nl
P214
P106
P1153
56265097000
P21
P214
P31
P496
0000-0003-1160-235X
P735
P7859
viaf-204925661