Jiří Kolbek scite author profile

Jiří Kolbek

5Publications

146Citation Statements Received

100Citation Statements Given

How they've been cited

246

143

How they cite others

Affiliations

Czech Academy of Sciences, Czech Academy of Sciences, Institute of Botany, Institute of Botany

Publications

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Can campo rupestre vegetation be floristically delimited based on vascular plant genera?

Alves¹,

Kolbek

2009

Plant Ecol

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A number of floristic and vegetation studies apply the terms campo rupestre, campo de altitude (or Brazilian pa´ramo), and Tepui to neotropical azonal outcrop and montane vegetation. All of these are known to harbor considerable numbers of endemic plant species and to share several genera. In order to determine whether currently known combinations of vascular plant genera could help circumscribe and distinguish these vegetation types, we selected 25 floras which did not exclude herbs and compiled them into a single database. We then compared the Sørensen similarities of the genusassemblages using the numbers of native species in the resulting 1945 genera by multivariate analysis. We found that the circumscription of campo rupestre and other Neotropical outcrop vegetation types may not rely exclusively on a combination of genera.

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Vegetation classification and synecology of Bohemian Robinia pseudacacia stands in a Central European context

Vítková¹,

Kolbek²

2010

phyto

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Summit vascular flora of Serra de São José, Minas Gerais, Brazil

Alves¹,

Kolbek²

2009

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The campos rupestres form a mosaic of rocky savannas concentrated mainly along the Espinhaço chain, on the Brazilian shield. Though the Serra de São José lies over 100 km to the south of the Espinhaço chain, the campo rupestre flora of this small range harbors several endemic plant taxa. The provided checklist is the result of two decades of floristic research complemented with data from herbaria and literature. The flora is compared with the results of several other pertinent surveys. A total of 1,144 vascular plant species, representing 50.3 species/km2, were documented to date in the São José range, representing a species-richness per unit area over five times greater than other known campo rupestre floras. The most species-rich families were the Asteraceae (126 species), Orchidaceae (106), Melastomataceae (63), Leguminosae (60), Cyperaceae (45), Poaceae (41), Rubiaceae (37), Myrtaceae (28), Bromeliaceae (27), Eriocaulaceae (23), Lamiaceae (23), and Malpighiaceae (22).

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Vegetation of the northern Korean Peninsula: classification, ecology and distribution

Kolbek¹,

Jarolímek²

2013

phyto

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Tree growth and competition in a post‐logging Quercus mongolica forest on Mt. Sobaek, South Korea

Doležal

Song

Altman

et al. 2008

Ecological Research

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Secondary woodlands in South Korea cover most mountains from low to middle elevations. While general patterns of forest succession are well understood, little is known about mechanisms of stand recovery after disturbance. We examined the spatio-temporal variations in establishment, growth, size inequality, and mode of competition among trees in a 50-year-old post-logging Quercus mongolica-dominated stand. We further compared the growth and stem allometry of single trees, presumably of seed origin, with multi-stemmed trees resprouting from stumps. Q. mongolica formed the upper canopy 16-22 m tall, 88.3% of total stand basal area, and 36.2% of total stem density, with most trees established during the first post-logging decade (51.2% were resprouts). During the first three decades, the Q. mongolica recruits grew exponentially, and disproportionately more in diameter than few older reserved trees left after the last cutting. This substantially decreased size inequality. The reverse trend was observed from 1994 to 2004: larger trees grow more, indicating an increasing asymmetry of competition for light. Neighborhood analysis revealed that when target trees had more or larger neighbors, their exponential phase of growth was reduced and maximum size was decreased. After the 50 years of stand development, more than 70% of Q. mongolica showed growth decline as a result of competitive stress, and mortality was about 30%, concentrated in smaller size classes. Compared to single stems, resprouts within clones do not seem to compete less asymmetric as might be expected based on studies of clonal herbaceous plants and physiological integration within genets. As Q. mongolica was also negatively affected by competition from woody species currently prevailing in the lower tree stratum (Tilia amurensis, Acer mono, Fraxinus rhynchophylla, Acer pseudosieboldianum), we predict the stand will become increasingly dominated by these more shade-tolerant trees.

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Jiří Kolbek

Can campo rupestre vegetation be floristically delimited based on vascular plant genera?

Vegetation classification and synecology of Bohemian Robinia pseudacacia stands in a Central European context

Summit vascular flora of Serra de São José, Minas Gerais, Brazil

Vegetation of the northern Korean Peninsula: classification, ecology and distribution

Tree growth and competition in a post‐logging Quercus mongolica forest on Mt. Sobaek, South Korea

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