Do elephants over-utilize mopane woodlands in northern Botswana?

1996 ◽  
Vol 12 (4) ◽  
pp. 505-515 ◽  
Author(s):  
Raphael Ben-Shahar
Keyword(s):  
Biomass Production ◽  
Growth Rates ◽  
Above Ground Biomass ◽  
Current Estimate ◽  
Rainfall Gradient ◽  
Ground Biomass ◽  
Biomass Removal ◽  
Elephant Population ◽  
Trees And Shrubs ◽  
Regional Rainfall

ABSTRACTEvidence from southern African semi-arid savannas suggests that high elephant densities in nature reserves cause the over-utilization of woodlands. Northern Botswana, with its prolific elephant population, is expected to follow such a pattern unless the densities of elephants which could be sustained by indigenous woodlands are determined and maintained at carrying capacity. Above ground biomass production was estimated for mopane (Colophospermum mopane) woodlands, a principal food source for elephants, which grows over much of northern Botswana. Densities of trees and shrubs, dimensions of plants and elephant densities were recorded within stratified plots situated according to a regional rainfall gradient. Mean estimates of above ground biomass (foliage and twigs) were 9.41 and 7.83 t ha−1 for shrubs and trees respectively. A logistic model described the maximum levels of biomass removal from plants before over-utilization of mopane occurred. Variables incorporated in the model included above ground biomass of mopane shrubs and trees, growth rates of plants and expected off-take by elephants. The model predicted a complete biomass regain within 10 y if no elephant browsing occurs. Intensive elephant browsing in woodlands containing 15 elephants km−2, however, can suppress biomass production if growth rates of plants fall below 70% of the maximum annual rate. Nonetheless, there was no substantial evidence to suggest that elephants will reduce the biomass of mopane woodlands in northern Botswana below a sustainable level if their numbers are allowed to increase considerably beyond the current estimate.

scholarly journals Phylogenetic diversity correlated with above‐ground biomass production during forest succession: Evidence from tropical forests in Southeast Asia

2018 ◽  
Vol 107 (3) ◽  
pp. 1419-1432 ◽  
Author(s):  
Manichanh Satdichanh ◽  
Huaixia Ma ◽  
Kai Yan ◽  
Gbadamassi G.O. Dossa ◽  
Leigh Winowiecki ◽  
...  
Keyword(s):  
Southeast Asia ◽  
Tropical Forests ◽  
Biomass Production ◽  
Phylogenetic Diversity ◽  
Forest Succession ◽  
Above Ground Biomass ◽  
Ground Biomass

scholarly journals Above-ground Biomass Recovery in Managed Tropical Forest in the Jari Valley, Eastern Amazon

2019 ◽  
Vol 11 (6) ◽  
pp. 129
Author(s):  
Adriano Castelo dos Santos ◽  
Eleneide Doff Sotta ◽  
Marcelino Carneiro Guedes ◽  
Lilian Blanc
Keyword(s):  
Global Climate ◽  
Rainfall Regime ◽  
Above Ground Biomass ◽  
Managed Forest ◽  
Local Equation ◽  
Ground Biomass ◽  
Management Area ◽  
Reduced Impact Logging ◽  
Exploitation Intensity ◽  
Regional Rainfall

Tropical forests play an important role in maintaining the regional rainfall regime and global climate, besides representing a significant stock of carbon. This study aimed at evaluate above-ground biomass (AGB) recovery, after reduced-impact logging (RIL) in a managed forest on the Jari River valley. The data were collected in 15 plots (100 m × 100 m) in the management area of the Jari Florestal Company. To estimate AGB we used a local equation adjusted for forests in the eastern Amazon. AGB before logging ranged from 157.9 Mg ha-1 to 619.9 Mg ha-1, with an average of 362.5 Mg ha-1. AGB after logging ranged from 151.2 Mg ha-1 to 632.8 Mg ha-1, with an average of 322.4 Mg ha-1. The time of monitoring of the plots and logging intensity were the main factors that influenced the recovery of the AGB. In 12 years after the RIL, the forest was able to recover its initial stocks of AGB, in places of low exploitation intensity.

scholarly journals Assessing Functional Diversity-Productivity Relationships in Temperate Forests in Northern Mexico

2020 ◽  
Author(s):  
Benedicto Vargas-Larreta ◽  
Jorge O. López-Martínez ◽  
Jose Javier Corral-Rivas ◽  
Francisco Javier Hernández
Keyword(s):  
Species Richness ◽  
Functional Diversity ◽  
Biomass Production ◽  
Temperate Forests ◽  
Taxonomic Diversity ◽  
Mass Ratio ◽  
Above Ground Biomass ◽  
Northern Mexico ◽  
Ground Biomass ◽  
Diversity Metrics

Abstract Background: Studies on the relationships between biodiversity and ecosystem productivity have suggested that species richness and functional diversity are the main drivers of ecosystem processes. There is no general pattern regarding the relationship found in various studies, and positive, unimodal, negative, and neutral relationships keep the issue controversial. In this study, taxonomic diversity vs functional diversity as drivers of above-ground biomass were compared, and the mechanisms that influence biomass production were investigated by testing the complementarity and the mass-ratio hypoteses.Methods: Using data from 414 permanent sampling plots, covering 23% of temperate forests in the Sierra Madre Occiental (Mexico), we estimated the above-ground biomass (AGB) for trees ≥7.5 cm d.b.h. in managed and unmanaged stands. We evaluated AGB-diversity relationships (species richness, Shannon-Wiener and Simpson indices), AGB-weighted mean community values ​​(CWM) of tree species functional traits (maximum height, leaf size, and wood density) and five measures of functional diversity (functional dispersion, functional richness, functional uniformity, functional diversity, and RaoQ index).Results: We reveal a consistent hump-shaped relationship between aboveground biomass and species richness in managen and unmanaged forest. CWM_Hmax was the most important predictor of AGB in both managed and unmanaged stands, which suggests that the mechanism that explains the above-ground biomass in these ecosystems is dominated by certain highly productive species in accordance of the mass-ratio hypothesis. There were no significant relationships between taxonomic diversity metrics (Shannon-Wiener and Simpson indices) or measures of functional diversity with AGB. The results support the mass-ratio hypothesis to explain the AGB variations.Conclusions: We concluded that diversity does not influence biomass production in the temperate mixed-species and uneven-aged forests of northern Mexico. These forests showed the classic hump-shaped productivity-species richness relationship, with biomass accumulation increasing at low to intermediate levels of species plant diversity and decreasing at high species richness. Functional diversity explains better forest productivity than classical diversity metrics.

scholarly journals Biomass production of grey alder, hybrid alder and silver birch stands on abandoned agricultural land

2008 ◽  
Vol 48 (1) ◽  
pp. 53-66 ◽  
Author(s):  
Jürgen Aosaar ◽  
Veiko Uri
Keyword(s):  
Biomass Production ◽  
Tree Species ◽  
Agricultural Land ◽  
Rotation Period ◽  
Production Capacity ◽  
Silver Birch ◽  
Above Ground Biomass ◽  
Ground Biomass ◽  
Short Rotation ◽  
The Mean

Halli lepa, hübriidlepa ja arukase biomassi produktsioon endistel põllumaadel The present study is based on four experimental sites, located in Southern-Estonia: hybrid alder and grey alder plantations located in Põlva county, and two sample plots of silver birch, located in Tartu county. The stand characteristics, above-ground biomass and current annual production (CAP) were estimated in order to evaluate production capacity of different tree species growing on abandoned agricultural lands. Due to fast growth and high biomass production capacity the most promising tree species for short-rotation forestry in Estonia is grey alder. The stem mass in the 13-years-old grey alder and hybrid alder stand was 63.4 t ha-1 and 40.0 t ha-1, respectively. However, the different biomass production is mainly affected by stand densities, 6170 trees per ha and 4080 trees per ha, respectively. During ageing, the differences between the alder stands diminish. At the age of 14, mean height and diameter at breast height were practically equal. Also the mean stem mass in the older, 13-year old stand, is almost equal: 10.3 kg in grey alder stand and 9.8 kg in hybrid alder stand. At a younger age, the mean stem mass was higher in grey alder stand, but later, at the age of 13, the mean stem mass has become almost the same (10.3 kg in grey alder stand and 9.8 kg in hybrid alder stand). The rotation period for hybrid alder is longer than for grey alder and bulk maturity will occur later. Silver birch is also a highly productive tree species and has a prospect for short-rotation forestry. The mean stem mass and annual current increment of 8-year-old silver birch stand was in same the magnitude as in the grey alder stand. Although the average stand diameter and height were lower in the silver birch stand than in the grey alder stand, it is compensated by the higher wood density of birch wood. The number of trees has affected silver birch stand production, the above-ground biomass in the very high density birch stand (35 600 trees per ha) was significantly lower than in the sparse stand (11 600 trees per ha), 22.8 t ha-1 and 31.2 t ha-1, respectively.

scholarly journals Evaluation of drought and UV radiation impacts on above-ground biomass of mountain grassland by spectral reflectance and thermal imaging techniques

Beskydy ◽  
2016 ◽  
Vol 9 (1-2) ◽  
pp. 21-30 ◽  
Author(s):  
Kateřina Novotná ◽  
Karel Klem ◽  
Petr Holub ◽  
Barbora Rapantová ◽  
Otmar Urban
Keyword(s):  
Drought Stress ◽  
Uv Radiation ◽  
Biomass Production ◽  
Thermal Imaging ◽  
Spectral Reflectance ◽  
Canopy Temperature ◽  
Stress Factors ◽  
Above Ground Biomass ◽  
Ground Biomass ◽  
Mountain Grassland

Drought represents one of the major factors limiting productivity of managed and natural ecosystems. Under natural field conditions drought is often associated with other stress factors such as high temperature and UV radiation, which may result in enhancement or vice versa alleviation of drought impact. Remote sensing methods have a large potential to evaluate impacts of drought on plant production at regional scale. The main objective of this study was to analyse the potential of ground-based measurement of spectral reflectance and thermal imaging for monitoring the impacts of drought and UV radiation on above-ground biomass production of mountain grassland ecosystem. Experimental rain-out shelters were used to manipulate incident precipitation and UV radiation for 7 weeks (May–July). A canopy spectral reflectance, thermal images, and total above-ground biomass were determined at the end of drought and UV treatment. Results show that drought led to a significant reduction of above-ground biomass, particularly under ambient UV radiation. In contrary, UV had only negligible effect on biomass production. Canopy temperature as well as selected spectral reflectance indices showed significant response to drought stress and also significant relationships to above-ground biomass. However, the relationship between canopy temperature and above-ground biomass is modified by UV radiation. Best prediction of changes in biomass caused by drought stress was provided by vegetation index NDVI.

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