Seed predation patterns favor the regeneration of dominant species in forest gaps compared with the understory in an oak-pine mixed forest

Recent studies have demonstrated the higher likelihood of regeneration in forest gaps compared with the understory for the dominant species in pine-oak mixed forest. Here, we tested whether rodent seed predation or dispersal was beneficial for gap regeneration. We tracked the seed predation and disp...

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Bibliographic Details
Published inActa theriologica Vol. 59; no. 4; pp. 495 - 502
Main Authors Yu, Fei, Shi, Xiaoxiao, Wang, Dexiang, Wang, Tao, Yi, Xianfeng, Lou, Yuangen
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer-Verlag 01.10.2014
Springer Berlin Heidelberg
Subjects
Animal Ecology
Biomedical and Life Sciences
buried seeds
canopy gaps
direct seeding
Evolutionary Biology
Fish & Wildlife Biology & Management
forest regeneration
Life Sciences
mixed forests
Original Paper
Pinus armandii
planting
plastics
Quercus
reforestation
rodents
seed predation
seedlings
spring
understory
Zoology
Gap regeneration
Seed dispersal
Qinling Mountains
var
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Summary:Recent studies have demonstrated the higher likelihood of regeneration in forest gaps compared with the understory for the dominant species in pine-oak mixed forest. Here, we tested whether rodent seed predation or dispersal was beneficial for gap regeneration. We tracked the seed predation and dispersal of Quercus aliena var. acuteserrata and Pinus armandii using coded plastic tags in the forest understory close to gaps. Our results demonstrated that the proportions of initial buried seeds of both species were significantly more abundant in the forest understory compared with gaps. After seed caching, however, significantly lower proportions of the seeds of both species survived in the forest understory compared with gaps during the 30-day observation period. The final survival proportions of the seeds cached in the forest understory were lower than those cached in the gaps the next spring, which indicated that small rodents rarely retrieved scatter-hoarded seeds from forest gaps. Our findings suggest that rodent seed predation patterns contribute to the regeneration of the dominant species in gaps compared with the understory in a pine-oak mixed forest. In the study area, reforestation usually involves planting seedlings but direct sowing in forest gaps may be an alternative means of accelerating forest recovery and successional processes.
Bibliography:http://dx.doi.org/10.1007/s13364-014-0192-y
ISSN:0001-7051
2190-3743
DOI:10.1007/s13364-014-0192-y