| View Larger Image | Carbon and nutrients loos in aboveground biomass along a fire induced forest-savanna gradient in the Gran Sabana, southern Venezuela [An article from: Forest Ecology and Management] | Digitalby N. Dezzeo (Author), N. Chacon (Author)
| List Price: | $10.95 | | | Available: | Available for download now |
| | Binding: | Digital | | Publisher: | Elsevier | | Publication Date: | May 02, 2005 |
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Product Description
This digital document is a journal article from Forest Ecology and Management, published by Elsevier in 2005. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.Description: Forest degradation and savannization are critical environmental issues associated with forest fires in the Gran Sabana, southern Venezuela. Yet little is known about the ecological consequences resulting from the conversion of forest to savanna in this region. In this study we quantified the change in C and nutrients in aboveground biomass along a fire induced gradient consisting of unburned tall primary forest (TF), slightly fire-affected medium forest (MF), strongly fire-affected low forest (LF) and savanna (S). Total aboveground biomass (TAGB) decreased from 411Mgha^-^1 in TF to 313Mgha^-^1 in MF, 13Mgha^-^1 in LF and 5Mgha^-^1 in S. The pools of C and nutrients in TAGB decreased 13-25% from TF to MF, 88-97% from TF to LF and 97-98% from TF to S. In TF and MF, about 40% of C and over 80% of base cations (Ca, K and Mg) was stored in TAGB, whereas the bulk of N and P were stored in the soil (90% of N and 72% of P). This distribution of elements was different in LF and S, where about 50% of base cations were stored in TAGB, and more than 94% of C, 98% of N and 87% of P were stored in the mineral soil. The large amount of elements stored in the biomass of the tall unburned forest demonstrates the high sensitivity of this ecosystem to fire. The change from tall forest to low forest and savanna implies large losses of C and nutrients stored in aboveground biomass and soils (namely 390-399MgCha^-^1, 11-13MgNha^-^1, 70-72kgPha^-^1, 783-818kgKha^-^1, 736-889kgCaha^-^1, and 200-225kgMgha^-^1). Such drain of C and nutrients in soils extremely low in silicates, which can replenish the lost nutrients by weathering reduces the recuperation chance of these ecosystems and therefore their future capacity to sequester C and accumulate nutrients. |
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