Original Research

Exploring an extensive dataset to establish woody vegetation cover and composition in Kruger National Park for the late 1980s

Gregory A. Kiker, Rheinhardt Scholtz, Izak P.J. Smit, Freek J. Venter
Koedoe | Vol 56, No 1 | a1200 | DOI: https://doi.org/10.4102/koedoe.v56i1.1200 | © 2014 Gregory A. Kiker, Rheinhardt Scholtz, Izak P.J. Smit, Freek J. Venter | This work is licensed under CC Attribution 4.0
Submitted: 29 August 2013 | Published: 08 September 2014

About the author(s)

Gregory A. Kiker, Department of Agricultural and Biological Engineering, University of Florida, United States of America; School of Mathematics, Statistics and Computer Science, University of KwaZulu-Natal, South Africa
Rheinhardt Scholtz, Scientific Services, South African National Parks, South Africa; School of Life Sciences, University of Kwazulu-Natal, South Africa
Izak P.J. Smit, Scientific Services, South African National Parks, South Africa
Freek J. Venter, Conservation Services, South African National Parks, Kruger National Park, South Africa

Abstract

Woody plant cover and species composition play an important role in defining the type and function of savanna ecosystems. Approximately 2000 sites in the Kruger National Park (KNP) were surveyed by F.J. Venter over a period from 1985 to 1989, recording vegetation, soil and topological characteristics. At each of these sites (approximately 20 m × 20 m each), woody vegetation cover and species were recorded using a rapid, Braun-Blanquet classification for three height classes: shrub (0.75 m – 2.50 m), brush (2.50 m – 5.50 m) and tree (> 5.50 m). The objective of this study was to re-analyse the vegetation component of the field data, with a specific focus to provide a spatially explicit, height-differentiated, benchmark dataset in terms of species occurrence, species richness and structural canopy cover. Overall, 145 different woody species were recorded in the dataset out of the 458 species documented to occur in the park. The dataset describes a woody layer dominated by a relatively small number of widely occurring species, as 24 of the most common woody species accounted for all woody species found on over 80% of all sites. The less common woody species (101) were each recorded on 20 sites or less. Species richness varied from 12 to 1 species per site. Structural canopy cover averaged 9.34%, 8.16% and 2.89% for shrub, brush and tree cover, respectively. The dataset provides a useful benchmark for woody species distribution in KNP and can be used to explore woody species and height class distributions, as well as comparison with more recent or future woody vegetation surveys.

Conservation implications: The results provided evidence that large-scale, woody vegetation surveys conducted along roads offer useful ecosystem level information. However, such an approach fails to pick up less common species. The data presented here provided a useful snapshot of KNP woody vegetation structure and composition and could provide excellent opportunities for spatio-temporal comparisons.


Keywords

Woody plant distribution; Canopy cover; Kruger Park; Species Richness

Metrics

Total abstract views: 5992
Total article views: 10470

 

Crossref Citations

1. Legacy effects of top–down disturbances on woody plant species composition in semi‐arid systems
R. Scholtz, I. P. J. Smit, C. Coetsee, G. A. Kiker, F. J. Venter
Austral Ecology  vol: 42  issue: 1  first page: 72  year: 2017  
doi: 10.1111/aec.12402

2. Küresel İklim Değişikliği ve Çevresel Değişimlerin Etkisi Altında Arazi Değişim Biliminin Ortaya Çıkışı: Kurak ve Yarı Kurak Ekosistemlerde Arazi Değişimi
Mehmet ÖZDEŞ
Coğrafi Bilimler Dergisi  vol: 21  issue: 2  first page: 660  year: 2023  
doi: 10.33688/aucbd.1198890

3. Different drivers create spatial vegetation cover and vertical structure in semi-arid African savannas
Rheinhardt Scholtz, Gregory A Kiker, Gregory D Duckworth, Ursula M Scharler, Henry G Mwambi, Frederick J Venter
African Journal of Range & Forage Science  vol: 33  issue: 2  first page: 91  year: 2016  
doi: 10.2989/10220119.2016.1170726

4. Land Change Science: Understanding the complexity of monitoring protected areas in savanna ecosystems of Sub-Saharan Africa
Mehmet ÖZDEŞ, Jane SOUTHWORTH
Türk Coğrafya Dergisi  issue: 82  first page: 63  year: 2023  
doi: 10.17211/tcd.1211634

5. Identifying drivers that influence the spatial distribution of woody vegetation in Kruger National Park, South Africa
R. Scholtz, G. A. Kiker, I. P. J. Smit, F. J. Venter
Ecosphere  vol: 5  issue: 6  first page: 1  year: 2014  
doi: 10.1890/ES14-00034.1

6. Biodiversity baselines: Tracking insects in Kruger National Park with DNA barcodes
Michelle L. D'Souza, Michelle van der Bank, Zandisile Shongwe, Ryan D. Rattray, Ross Stewart, Johandré van Rooyen, Danny Govender, Paul D.N. Hebert
Biological Conservation  vol: 256  first page: 109034  year: 2021  
doi: 10.1016/j.biocon.2021.109034

7. Quantifying spatiotemporal drivers of environmental heterogeneity in Kruger National Park, South Africa
Sandra MacFadyen, Cang Hui, Peter H. Verburg, Astrid J. A. Van Teeffelen
Landscape Ecology  vol: 31  issue: 9  first page: 2013  year: 2016  
doi: 10.1007/s10980-016-0378-6

8. Changes in elephant conservation management promote density‐dependent habitat selection in the Kruger National Park
A. S. Robson, R. J. van Aarde
Animal Conservation  vol: 21  issue: 4  first page: 302  year: 2018  
doi: 10.1111/acv.12393