Your search keyword '"Yaida, Yuki A."' showing total 3 results

1. Negative legacy effects of past forest use on native plant diversity in semi-natural grasslands on ski slopes

Author

Yaida, Yuki A., Nagai, Takuma, Oguro, Kazuya, Katsuhara, Koki R., Uchida, Kei, Kenta, Tanaka, and Ushimaru, Atushi

Published

2024

2. Seed dispersal limitation causes negative legacy effect on restoration of grassland plant diversity on ski slopes.

Author

Yaida, Yuki A., Inoue, Taiki, Kenta, Tanaka, and Ushimaru, Atushi

Subjects

*GRASSLAND restoration, *GRASSLAND conservation, *SEED dispersal, *BIODIVERSITY conservation, *SECONDARY forests, *FOREST biodiversity, *GRASSLANDS

Abstract

Past forest use often has a long‐term negative impact on the recovery of the original plant composition of semi‐natural grasslands, which is known as a legacy effect. This study investigates the impact of seed dispersal limitations on the restoration of grassland plant diversity on ski slopes with past forest use, highlighting the negative legacy effect on biodiversity recovery. Focusing on ski areas, our research contrasts the vegetation on ski slopes originally created on semi‐natural grasslands such as pasture (pasture slopes) and constructed by clearing secondary forests or conifer plantations (forest slopes). We examined species richness and diversity, considering seed dispersal modes, grassland management history, and seed source proximity. We reveal that the proximity to species‐rich grassland sources is pivotal for the restoration of native grassland vegetation. Particularly, wind‐dispersed species show significant recovery on slopes with sustained management for more than 70 years and those with neighboring species‐rich grasslands, suggesting that both the duration of management and the proximity to seed sources are critical for overcoming the legacy effects of past forest use. Meanwhile, gravity‐dispersed species failed to recover their richness and diversity regardless of both the duration of management and the proximity to seed source grasslands, which their diversity recovered where seed sources neighbored. Our findings emphasize the importance of considering seed dispersal limitation and management history in the restoration and conservation of grasslands and their biodiversity, particularly in landscapes experiencing past human intervention. [ABSTRACT FROM AUTHOR]

Published

2024

3. The effects of temporal continuities of grasslands on the diversity and species composition of plants.

Author

Inoue, Taiki, Yaida, Yuki A., Uehara, Yuki, Katsuhara, Koki R., Kawai, Jun, Takashima, Keiko, Ushimaru, Atushi, and Kenta, Tanaka

Subjects

*GRASSLANDS, *GRASSLAND conservation, *OLD growth forests, *BIOTIC communities, *PLANT diversity, *FOREST biodiversity, *PLANT species diversity

Abstract

Seminatural grasslands are ecosystems rich in biodiversity. However, their decline has been reported worldwide, and identification of grasslands with high conservation priority is urgently required. Recently, an increasing number of studies have reported that past vegetation history affects current biological communities. To evaluate whether the temporal continuity of grasslands promotes biodiversity, and thus can be an indicator of conservation priority, we studied vascular plant communities in old (160–1000s years) and new (52–70 years after deforestation) grasslands, as well as in forests, of Sugadaira Highland in central Japan. The number of plant species was highest in old grasslands, followed by new grasslands and forests. This pattern was much clearer in the number of grassland‐dependent native and grassland‐dependent endangered species, indicating the role of old grasslands as refugia for those species. The species composition differed between old and new grasslands. New grasslands had species compositions in between those of old grasslands and forests, suggesting that the plant community in new grasslands retains the influence of past forestation for more than 52 years after deforestation. Eleven indicator species were detected in old grasslands, but none in new grasslands, suggesting the uniqueness of the plant community in old grasslands. We conclude that the temporal continuity of grasslands increases plant diversity and can be an indicator of grasslands with high conservation priority. [ABSTRACT FROM AUTHOR]

Published

2021