The influence of trees, shrubs, and grasses on microclimate, soil carbon, nitrogen, and CO2 efflux: Potential implications of shrub encroachment for Kalahari rangelands.
Journal article
Thomas, Andrew David, Elliott, D., Dougill, Andrew John, Stringer, Lindsay Carman, Hoon, Stephen Robert and Sen, Robin 2018. The influence of trees, shrubs, and grasses on microclimate, soil carbon, nitrogen, and CO2 efflux: Potential implications of shrub encroachment for Kalahari rangelands. Land Degradation & Development. 29 (5), pp. 1-11. https://doi.org/10.1002/ldr.2918
| Authors | Thomas, Andrew David, Elliott, D., Dougill, Andrew John, Stringer, Lindsay Carman, Hoon, Stephen Robert and Sen, Robin |
|---|---|
| Abstract | Shrub encroachment is a well‐documented phenomenon affecting many of the world's drylands. The alteration of vegetation structure and species composition can lead to changes in local microclimate and soil properties which in turn affect carbon cycling. The objectives of this paper were to quantify differences in air temperatures, soil carbon, nitrogen, and CO2 efflux under trees (Vachellia erioloba), shrubs (Grewia flava), and annual and perennial grasses (Schmidtia kalahariensis and Eragrostis lehmanniana) collected over three seasons at a site in Kgalagadi District, Botswana, in order to determine the vegetation‐soil feedback mechanism affecting the carbon cycle. Air temperatures were logged continuously, and soil CO2 efflux was determined throughout the day and evening using closed respiration chambers and an infrared gas analyser. There were significant differences in soil carbon, total nitrogen, CO2 efflux, light, and temperatures beneath the canopies of trees, shrubs, and grasses. Daytime air temperatures beneath shrubs and trees were cooler compared with grass sites, particularly in summer months. Night‐time air temperatures under shrubs and trees were, however, warmer than at the grass sites. There was also significantly more soil carbon, nitrogen, and CO2 efflux under shrubs and trees compared with grasses. Although the differences observed in soils and microclimate may reinforce the competitive dominance of shrubs and present challenges to strategies designed to manage encroachment, they should not be viewed as entirely negative. Our findings highlight some of the dichotomies and challenges to be addressed before interventions aiming to bring about more sustainable land management can be implemented. |
| Keywords | Dryland; Microclimate; Shrubs; Soil‐vegetation feedbacks; Vegetation; Carbon cycle |
| Year | 2018 |
| Journal | Land Degradation & Development |
| Journal citation | 29 (5), pp. 1-11 |
| Publisher | Wiley |
| ISSN | 1085-3278 |
| Digital Object Identifier (DOI) | https://doi.org/10.1002/ldr.2918 |
| Web address (URL) | https://onlinelibrary.wiley.com/doi/10.1002/ldr.2918 |
| hdl:10545/622722 | |
| Output status | Published |
| Publication dates | 24 Feb 2018 |
| Publication process dates | |
| Deposited | 22 May 2018, 10:30 |
| Accepted | 15 Feb 2018 |
| Rights | Archived with thanks to Land Degradation & Development |
| Contributors | Aberystwyth University, University of Derby, University of Leeds, Manchester Metropolitan University, Department of Geography and Earth Sciences; Aberystwyth University; Aberystwyth SY23 3DB UK, Environmental Sustainability Research Centre; University of Derby; Derby DE22 1GB UK, School of Earth and Environment; University of Leeds; Leeds LS2 9JT UK, School of Earth and Environment; University of Leeds; Leeds LS2 9JT UK, School of Science and the Environment; Manchester Metropolitan University; Manchester M1 5GD UK and School of Science and the Environment; Manchester Metropolitan University; Manchester M1 5GD UK |
| File | License File Access Level Open |
| File | File Access Level Restricted |
| File | File Access Level Restricted |
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