Please use this identifier to cite or link to this item:
Stand Structure of a Montane Rain Forest on Mauna Loa, Hawaii
|Title:||Stand Structure of a Montane Rain Forest on Mauna Loa, Hawaii|
|Authors:||Cooray, Ranjit G.|
|Keywords:||Kilauea Forest Reserve|
|LC Subject Headings:||Rain forests -- Hawaii -- Hawaii Island.|
Plants -- Hawaii -- Hawaii Island.
Forest ecology -- Hawaii -- Hawaii Island.
Mauna Loa (Hawaii Island, Hawaii)
|Issue Date:||Aug 1974|
|Publisher:||Island Ecosystems IRP, U.S. International Biological Program|
|Citation:||Cooray RG. 1974. Stand structure of a montane rain forest on Mauna Loa, Hawaii. Honolulu (HI): Island Ecosystems IRP, U.S. International Biological Program. International Biological Program Technical Report, 44.|
|Series/Report no.:||International Biological Program Technical Report|
|Abstract:||It has been suggested that the native tree species Acacia koa var. hawaiiensis Rock is not adequately reproducing and may be gradually disappearing from the montane rain forest in Hawaii. A structural analysis was carried out in an Acacia-Metrosideros-Cibotium montane rain forest on the east slope of Mauna Loa on the island of Hawaii, to determine the status of all woody plant species and especially the status of the tall dominant tree species Acacia koa. Profile diagrams were also made for systematically chosen segments in the stand. The profile diagrams showed three important structural variations within the homogenous vegetation stand. Woody plant distribution by size-classes, regardless of species, showed an inverse J-shaped distribution characteristic of a stable, self maintaining forest. Structural analysis of individual species populations showed good stability trends for most low-stature and intermediate-stature tree species, but some species were less abundant than others. Acacia koa was present in all size-classes. The stand contained four times as many seedlings and suckers as tall emergent trees. Thus, this species is regenerating and maintaining itself. Low numbers of koa saplings, small trees and intermediate-sized trees may reflect rapid height growth, rather than a gradual decline of this species in the forest. Larger numbers of koa seedlings may also get established in pulses when large canopy gaps are formed. Rooting activity of feral pigs destroys Acacia koa seedlings rooted in mineral soil. Most of the healthy koa saplings were observed on root collars of scattered wind-thrown koa trees. This type of “gap-phase replacement” can be related to the protection seedlings receive from pig activity. Pig populations, if allowed to increase, may cause a change in the stability trends of species populations, and an overall deterioration of this native rain forest ecosystem.|
|Description:||Reports were scanned in black and white at a resolution of 600 dots per inch and were converted to text using Adobe Paper Capture Plug-in.|
|Sponsor:||The study was supported by NSF Grant No. GB 23230 of the Island Ecosystems IRP under the US/International Biological Program and a grant provided by the Bishop Estate Corporation.|
|Rights:||CC0 1.0 Universal|
|Appears in Collections:||International Biological Program Technical Reports (1970-1975)|
Items in ScholarSpace are protected by copyright, with all rights reserved, unless otherwise indicated.