The mountain ecosystem is a hotspot of biodiversity and provides a significant contribution to the humans’ livelihoods. However, there is still a lack of information regarding floral diversity and how it has been aff...The mountain ecosystem is a hotspot of biodiversity and provides a significant contribution to the humans’ livelihoods. However, there is still a lack of information regarding floral diversity and how it has been affected due to a logging operation in Sarawak. A study was conducted to determine vegetation recovery at the Heart of Borneo conservation area at different elevations: 750–1200 m(S1), 1200–1500 m(S2) and >1500 m(S3). A total of 891 trees were enumerated. The trees comprised 55 families, 98 genera and 203 species. The lowest elevation site, S1, contained the highest number of species(117) and families(42), while the highest elevation site, S3, contained the lowest diversity(25 families and 59 species). A similar forest structure was recorded, whereby diameter at breast height(dbh), basal area and height decreased as elevation increased. The most speciose families in S1 were Dipterocarpaceae(11 species) and Lauraceae(10 species), while Lauraceae and Fagaceae were the dominant tree families at S2 and S3. Secondary tree species are still abundantly found in the logged plots, especially at S2(45.5%), indicating that after 30 years, these stands are still in the recovery stages. The logged plots retained typical secondary forest appearances with lower canopy diameters and heights and dbh than the unlogged forest. Although the species richness approached that of the unlogged plots, especially at S1(90.9%) and S3(94.9%), there were still major differences in the floristic compositions between logged and unlogged plots(35.4%, 21.5% and 44.7% for S1, S2 and S3, respectively). Although potential seed sources were in close proximity, succession at S2 has proceeded much slower than at S1 and S3. Lower concentrations of soil nutrients, especially N, may be the main reason for the slow recovery. In conclusion, the results suggested that the selectively logged forest at the Payeh Maga Highland required more than three decades to recover and achieve a climate forest stage.展开更多
On Page 1428,Table 5 is missing.It should be placed after this paragraph“In this study,a total of 19 endemic species of Borneo were recorded(Table 5).The highest number of endemic species was found in S1 followed by ...On Page 1428,Table 5 is missing.It should be placed after this paragraph“In this study,a total of 19 endemic species of Borneo were recorded(Table 5).The highest number of endemic species was found in S1 followed by S2 and S3.Four endemic Dipterocarpaceae(Shorea crassa at S2;Shorea isopteran,Shorea parvistipulata and Vatica micrantha at S1)were found in this study area(Table 5).Three endemic species each from Fagaceae,Lauraceae and Myrtaceae were also documented during this study(Table 5).At a similar elevation range to S3,Kueh et al.(2017)recorded 12 endemic species in their study.”.展开更多
基金conducted under research permit NCCD.907.4.4 (Jld.11)–3supported by the Ministry of Science, Technology and Innovation Malaysia [Science Fund (06-01-04SF2281)]
文摘The mountain ecosystem is a hotspot of biodiversity and provides a significant contribution to the humans’ livelihoods. However, there is still a lack of information regarding floral diversity and how it has been affected due to a logging operation in Sarawak. A study was conducted to determine vegetation recovery at the Heart of Borneo conservation area at different elevations: 750–1200 m(S1), 1200–1500 m(S2) and >1500 m(S3). A total of 891 trees were enumerated. The trees comprised 55 families, 98 genera and 203 species. The lowest elevation site, S1, contained the highest number of species(117) and families(42), while the highest elevation site, S3, contained the lowest diversity(25 families and 59 species). A similar forest structure was recorded, whereby diameter at breast height(dbh), basal area and height decreased as elevation increased. The most speciose families in S1 were Dipterocarpaceae(11 species) and Lauraceae(10 species), while Lauraceae and Fagaceae were the dominant tree families at S2 and S3. Secondary tree species are still abundantly found in the logged plots, especially at S2(45.5%), indicating that after 30 years, these stands are still in the recovery stages. The logged plots retained typical secondary forest appearances with lower canopy diameters and heights and dbh than the unlogged forest. Although the species richness approached that of the unlogged plots, especially at S1(90.9%) and S3(94.9%), there were still major differences in the floristic compositions between logged and unlogged plots(35.4%, 21.5% and 44.7% for S1, S2 and S3, respectively). Although potential seed sources were in close proximity, succession at S2 has proceeded much slower than at S1 and S3. Lower concentrations of soil nutrients, especially N, may be the main reason for the slow recovery. In conclusion, the results suggested that the selectively logged forest at the Payeh Maga Highland required more than three decades to recover and achieve a climate forest stage.
文摘On Page 1428,Table 5 is missing.It should be placed after this paragraph“In this study,a total of 19 endemic species of Borneo were recorded(Table 5).The highest number of endemic species was found in S1 followed by S2 and S3.Four endemic Dipterocarpaceae(Shorea crassa at S2;Shorea isopteran,Shorea parvistipulata and Vatica micrantha at S1)were found in this study area(Table 5).Three endemic species each from Fagaceae,Lauraceae and Myrtaceae were also documented during this study(Table 5).At a similar elevation range to S3,Kueh et al.(2017)recorded 12 endemic species in their study.”.