Marike Trytsman scite author profile

Marike Trytsman

3Publications

56Citation Statements Received

145Citation Statements Given

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138

139

Affiliations

Agricultural Research Council of South Africa, Animal Production Institute, Lynn University

Publications

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Diversity and biogeographical patterns of legumes (Leguminosae) indigenous to southern Africa

Trytsman¹,

Westfall²,

Breytenbach³

et al. 2016

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The principal aim of this study was to establish biogeographical patterns in the legume flora of southern Africa so as to facilitate the selection of species with agricultural potential. Plant collection data from the National Herbarium, South Africa, were analysed to establish the diversity and areas covered by legumes (Leguminosae/Fabaceae) indigenous to South Africa, Lesotho and Swaziland. A total of 27,322 records from 1,619 quarter degree grid cells, representing 1,580 species, 122 genera and 24 tribes were included in the analyses. Agglomerative hierarchical clustering was applied to the presence or absence of legume species in quarter degree grid cells, the resultant natural biogeographical regions (choria) being referred to as leguminochoria. The description of the 16 uniquely formed leguminochoria focuses on defining the associated bioregions and biomes, as well as on the key climate and soil properties. Legume species with a high occurrence in a leguminochorion are listed as key species. The dominant growth form of key species, species richness and range within each leguminochorion is discussed. Floristic links between the leguminochoria are established, by examining and comparing key species common to clusters, using a vegetation classification program. Soil pH and mean annual minimum temperature were found to be the main drivers for distinguishing among legume assemblages. This is the first time that distribution data for legumes has been used to identify biogeographical areas covered by leguminochoria on the subcontinent. One potential application of the results of this study is to assist in the selection of legumes for pasture breeding and soil conservation programs, especially in arid and semi-arid environments.

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Prioritisation of native legume species for further evaluation as potential forage crops in water-limited agricultural systems in South Africa

Müller

Raitt

Chimphango

et al. 2017

Environ Monit Assess

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In the face of climate change, identification of forage species suitable for dryland farming under low rainfall conditions in South Africa is needed. Currently, there are only a limited number of forage species suitable for dryland farming under such conditions. The objective of this study was to identify and prioritise native legume species that could potentially be used in dryland farming systems in water-limited agro-ecosystems in South Africa. Using a combination of ecological niche modelling techniques, plant functional traits, and indigenous knowledge, 18 perennial herbaceous or stem-woody legume species were prioritised for further evaluation as potential fodder species within water-limited agricultural areas. These species will be evaluated further for their forage quality and their ability to survive and produce enough biomass under water limitation and poor edaphic conditions.

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Assessing legumes indigenous to South Africa, Lesotho and Swaziland for their pasture potential

Trytsman

Masemola

Müller

et al. 2019

African Journal of Range & Forage Science

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The protection of African plant diversity is important since the continent is noted to be vulnerable to climate change (McClean et al. 2005; Davis-Reddy and Vincent 2017), whereas southern Africa has been identified as being highly vulnerable (Gonzalez et al. 2010). It is predicted that the geographical ranges of African plant species will decrease in size and/or shift to locations at higher altitude, such as the Drakensberg, with concomitant large geographical changes in species composition (McClean et al. 2005). The impacts of climate change on the potential production of forage crops in southern Africa is therefore particularly important when selecting new forage species for screening and breeding programmes.Even though many southern African grass species have been evaluated, improved and made commercially available, only a few indigenous legume species are presently used as pasture crops (

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Marike Trytsman

Diversity and biogeographical patterns of legumes (Leguminosae) indigenous to southern Africa

Prioritisation of native legume species for further evaluation as potential forage crops in water-limited agricultural systems in South Africa

Assessing legumes indigenous to South Africa, Lesotho and Swaziland for their pasture potential

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