Invasive alien plants of South Africa’s freshwater systems : accelerating identification of species and climatically suitable areas for species invasion

M.Sc. (Botany) === In South Africa, controlling and eradicating Azolla filiculoides and Eichhornia crassipes cost annually approximately US$ 60 million to the national budget. However, the success of these operations is mixed because invasive aquatic plants often spread very rapidly either before th...

Full description

Bibliographic Details
Main Author: Hoveka, Lerato Nakedi
Published: 2014
Subjects:
Online Access:http://hdl.handle.net/10210/11353
id ndltd-netd.ac.za-oai-union.ndltd.org-uj-uj-11640
record_format oai_dc
spelling ndltd-netd.ac.za-oai-union.ndltd.org-uj-uj-116402017-09-16T04:01:57ZInvasive alien plants of South Africa’s freshwater systems : accelerating identification of species and climatically suitable areas for species invasionHoveka, Lerato NakediFreshwater plants - Genome mapping - South AfricaInvasive plants - Genome mapping - South AfricaInvasive plants - South Africa - Geographical distribution - Climatic factors - South AfricaM.Sc. (Botany)In South Africa, controlling and eradicating Azolla filiculoides and Eichhornia crassipes cost annually approximately US$ 60 million to the national budget. However, the success of these operations is mixed because invasive aquatic plants often spread very rapidly either before they are spotted or before decisions are taken to implement control actions. This limitation is further exacerbated by difficulties in determining the invasion potential of newly introduced or unknown aquatic plants, as well as difficulties inherent to species identification. Resolving these drawbacks requires pre-emptive actions such as identifying areas that are most vulnerable to invasion by alien plants. In this study, I first explore whether molecular technique such as DNA barcoding can be useful to: i) overcome potential limitation of morphology-based identification of invasive aquatic plants; and ii) establish successful control of these invasives. For this purpose, I tested the utility of official DNA barcodes (rbcLa + matK or core barcodes), trnH-psbA, and the core barcode + trnH-psbA to identify invasive aquatic plants of South Africa’s freshwaters. Second, I use the technique of ecological niche modeling to identify most vulnerable freshwater systems to species invasion under current and climatic conditions. My analysis indicates that the core barcodes and matK regions perform poorer compared to trnH-psbA, which provides 100% successful identification alone or in combination with the core barcodes. This study therefore validates trnH-psbA as single best DNA barcode for invasive alien aquatic plants of freshwater systems in South Africa. Using this DNA region in BLAST analysis to screen plants species sold in aquarium market in Johannesburg, I found surprisingly that some prohibited species are already in circulation in the market. These include Hydrilla verticillata, egeria densa, Myriophyllum spicatum, and Echinodorus cordifolius. Furthermore, based on climatic parameters, I explored the distribution of the "bad five" aquatic species in South Africa, i.e. the most damaging invaders of freshwater systems. I found distinct distribution potentials for these species under current climatic conditions. Overall, 38% of all South Africa’s dams occur in areas climatically vulnerable to the invasion by the bad five with the Western Cape Province being the most vulnerable. However, under predicted climate change scenario, I found evidence for contrasting shifts in species range: species such as Azolla filiculoides, Eichhornia crassipes, Salvinia molesta might increase their range by at most 2% whilst the ranges of Myriophyllum aquaticum and Pistia stratiotes might contract by at most 5%. This range contraction and expansion will result in some dams currently vulnerable to invasion becoming resilient whilst others that are currently resilient might become vulnerable owing to climate change. This result demonstrates not only the utility of DNA barcoding in implementing control measures, but also provides ways of prioritising control/management efforts.2014-07-01Thesisuj:11640http://hdl.handle.net/10210/11353University of Johannesburg
collection NDLTD
sources NDLTD
topic Freshwater plants - Genome mapping - South Africa
Invasive plants - Genome mapping - South Africa
Invasive plants - South Africa - Geographical distribution - Climatic factors - South Africa
spellingShingle Freshwater plants - Genome mapping - South Africa
Invasive plants - Genome mapping - South Africa
Invasive plants - South Africa - Geographical distribution - Climatic factors - South Africa
Hoveka, Lerato Nakedi
Invasive alien plants of South Africa’s freshwater systems : accelerating identification of species and climatically suitable areas for species invasion
description M.Sc. (Botany) === In South Africa, controlling and eradicating Azolla filiculoides and Eichhornia crassipes cost annually approximately US$ 60 million to the national budget. However, the success of these operations is mixed because invasive aquatic plants often spread very rapidly either before they are spotted or before decisions are taken to implement control actions. This limitation is further exacerbated by difficulties in determining the invasion potential of newly introduced or unknown aquatic plants, as well as difficulties inherent to species identification. Resolving these drawbacks requires pre-emptive actions such as identifying areas that are most vulnerable to invasion by alien plants. In this study, I first explore whether molecular technique such as DNA barcoding can be useful to: i) overcome potential limitation of morphology-based identification of invasive aquatic plants; and ii) establish successful control of these invasives. For this purpose, I tested the utility of official DNA barcodes (rbcLa + matK or core barcodes), trnH-psbA, and the core barcode + trnH-psbA to identify invasive aquatic plants of South Africa’s freshwaters. Second, I use the technique of ecological niche modeling to identify most vulnerable freshwater systems to species invasion under current and climatic conditions. My analysis indicates that the core barcodes and matK regions perform poorer compared to trnH-psbA, which provides 100% successful identification alone or in combination with the core barcodes. This study therefore validates trnH-psbA as single best DNA barcode for invasive alien aquatic plants of freshwater systems in South Africa. Using this DNA region in BLAST analysis to screen plants species sold in aquarium market in Johannesburg, I found surprisingly that some prohibited species are already in circulation in the market. These include Hydrilla verticillata, egeria densa, Myriophyllum spicatum, and Echinodorus cordifolius. Furthermore, based on climatic parameters, I explored the distribution of the "bad five" aquatic species in South Africa, i.e. the most damaging invaders of freshwater systems. I found distinct distribution potentials for these species under current climatic conditions. Overall, 38% of all South Africa’s dams occur in areas climatically vulnerable to the invasion by the bad five with the Western Cape Province being the most vulnerable. However, under predicted climate change scenario, I found evidence for contrasting shifts in species range: species such as Azolla filiculoides, Eichhornia crassipes, Salvinia molesta might increase their range by at most 2% whilst the ranges of Myriophyllum aquaticum and Pistia stratiotes might contract by at most 5%. This range contraction and expansion will result in some dams currently vulnerable to invasion becoming resilient whilst others that are currently resilient might become vulnerable owing to climate change. This result demonstrates not only the utility of DNA barcoding in implementing control measures, but also provides ways of prioritising control/management efforts.
author Hoveka, Lerato Nakedi
author_facet Hoveka, Lerato Nakedi
author_sort Hoveka, Lerato Nakedi
title Invasive alien plants of South Africa’s freshwater systems : accelerating identification of species and climatically suitable areas for species invasion
title_short Invasive alien plants of South Africa’s freshwater systems : accelerating identification of species and climatically suitable areas for species invasion
title_full Invasive alien plants of South Africa’s freshwater systems : accelerating identification of species and climatically suitable areas for species invasion
title_fullStr Invasive alien plants of South Africa’s freshwater systems : accelerating identification of species and climatically suitable areas for species invasion
title_full_unstemmed Invasive alien plants of South Africa’s freshwater systems : accelerating identification of species and climatically suitable areas for species invasion
title_sort invasive alien plants of south africa’s freshwater systems : accelerating identification of species and climatically suitable areas for species invasion
publishDate 2014
url http://hdl.handle.net/10210/11353
work_keys_str_mv AT hovekaleratonakedi invasivealienplantsofsouthafricasfreshwatersystemsacceleratingidentificationofspeciesandclimaticallysuitableareasforspeciesinvasion
_version_ 1718536083102236672