Your search keyword '"Taavi Paal"' showing total 2 results

1. Both spatiotemporal connectivity and habitat quality limit the immigration of forest plants into wooded corridors

Author

Kertu Lõhmus, Jaan Liira, Laura Kütt, and Taavi Paal

Subjects

0106 biological sciences, geography.geographical_feature_category, Ecology, Agroforestry, 010604 marine biology & hydrobiology, Plant Science, Old-growth forest, 010603 evolutionary biology, 01 natural sciences, Forest restoration, Geography, Habitat, Forest ecology, Secondary forest, Afforestation, Intact forest landscape, Landscape connectivity

Abstract

Extensive afforestation of agricultural areas has increased the importance of green corridors as a dispersal network. We tested the effect of spatiotemporal connectivity, edge effect and habitat structural quality of wooded corridors on the long-term immigration success of forest specialist plants relative to the performance of forest generalists. In agricultural landscapes of central and southern Estonia, we sampled 28 historically connected and 52 isolated tree lines and alleys with a minimum age of 50 years, and 93 edges of ancient forests. The regional pool of common forest plants was compiled using species’ frequency data in 91 ancient forests. Both landscape connectivity and habitat quality affected the richness of response groups, but specialists and generalists responded to different drivers. Forest specialists required long-term neighbourhoods of ancient forest and benefited from a direct connection between forest and corridor. Habitat generalists reacted positively to the recently modified structure of the landscape. When a corridor was connected to forest, the dual edge in the corridor did not result in an increased negative edge effect on forest specialist arrival. Even if both specialists and generalists required wide corridors with optimum shade, forest specialists also benefited from mature overstorey and outward overhanging branches, whereas forest generalists used disturbance-created microhabitats. We conclude that only wooded corridors with long-term connectivity to seed source forests and widely branched tree canopies will function as a green infrastructure supporting forest-specific biodiversity.

Published

2017

2. Do forest-dwelling plant species disperse along landscape corridors?

Author

Taavi Paal and Jaan Liira

Subjects

Ecology, Habitat, Seed dispersal, Dispersal vector, Species distribution, Biological dispersal, Plant Science, Species richness, Wildlife corridor, Biology, Generalist and specialist species

Abstract

Woody corridors in fragmented landscapes have been proposed as alternative habitats for forest plants, but the great variation in species-specific responses blurs the overall assessment. The aim of this study was to estimate the dispersal success of forest-dwelling plants from a stand into and along an attached woody corridor, and to explain the observed patterns from the point of view of species’ dispersal traits and corridor properties. We sampled 47 forest–corridor transects in the agricultural landscapes of southeastern Estonia. Regionally common forest-dwelling species (observed in at least 10 % of seed-source forests) were classified on the basis of their ecological response profile—forest-restricted species (F-type) and forest-dwelling generalists (G-type). Species richness and the proportion of F-type species decreased sharply from the seed-source forest core to the forest edge and to the first 10–15 m of the corridor, while G-type species richness remained constant throughout the transect. Corridor structure had a species-specific effect—F species were promoted by old (≥50 years) and wide (≥10 m) corridors, while G species were supported by young and narrow corridors with ditch-related soil disturbances. Moderate shade (canopy cover

Published

2013