Alias D, Milton S, Herrmann E, Seymour C (2003). A collation and overview of research information on Boscia albitrunca (shepherd's tree) and identification of relevant research gaps to inform protection of the species. Department of Water Affairs and Forestry, South Africa. Available at:

View   

Al-Robai SA (2023). Ecology and Diversity of Angiosperm Parasites and Their Host Plants along Elevation Gradient in Al-Baha Region, Saudi Arabia. Diversity 15(10):1065.
Crossref

Arsiso BK, Mengistu TG (2023). Land Use and Land Cover Change Modulates Hydrological Flows and Water Supply to Gaborone Dam Catchment, Botswana. Water 15(19):3364.
Crossref

Botswana S (2017). Botswana environment statistics. Water and Climate Digest. Available at:

View

Bouwmeester H, Sinha N, Scholes J (2021). Parasitic plants: physiology, development, signaling, and ecosystem interactions. Plant Physiology 185(4):1267-1269.
Crossref

Casadesús A, Munné-Bosch S (2021). Holoparasitic plant-host interactions and their impact on Mediterranean ecosystems. Plant Physiology 185(4):1325-1338.
Crossref

Dean WRJ, Midgley JJ, Stock WD (1994). The distribution of mistletoes in South Africa: patterns of species richness and host choice. Journal of Biogeography 21(5):503-510.
Crossref

Dlama TT, Oluwagbemileke AS, Enehezeyi AR (2016). Mistletoe presence on five tree species of Samaru area, Nigeria. African Journal of Plant Science 10(1):16-22.
Crossref

Dzerefos CM, Witkowski ETF, Shackleton CM (2003). Host-preference and density of Woodrose-forming mistletoes (Loranthaceae) on savanna vegetation. South Africa. Plant Ecology 167(1):163-177.

Erdogan P (2022). Parasitic plants in agriculture and management. Parasitic Plants 1.
Crossref

Fontúrbel FE, Salazar DA, Medel R (2017). Why mistletoes are more aggregated in disturbed forests? The role of differential host mortality. Forest Ecology and Management 394:13-19.
Crossref

Gairola S, Bhatt A, Govender Y, Baijnath H, Proche? ?, Ramdhani S (2013). Incidence and intensity of tree infestation by the mistletoe Erianthemum dregei (Eckl. and Zeyh.) V. Tieghem in Durban, South Africa. Urban Forestry and Urban Greening 12(3):315-322.
Crossref

Grímsson F, Xafis A, Neumann FH, Scott L, Bamford MK, Zetter R (2018). The first Loranthaceae fossils of Africa. Grana 57(4):249-259.
Crossref

Godschalk SKB (1983). The morphology of some South African mistletoe fruits. South African Journal of Botany 2(1): 52-56.
Crossref

Griebel A, Watson D, Pendall E (2017). Mistletoe, friend, and foe: synthesizing ecosystem implications of mistletoe infection. Environmental Research Letters 12(11): 115012.
Crossref

Hishe M, Abraha B (2013). Mistletoe infection of woody plant species at Bahir Dar University main campus, Bahir Dar, Ethiopia. SINET: Ethiopian Journal of Science 36(2):119-124.

Karlin MS, Karlin UO (2018). Ecology of Acacieae. Acacia: Characteristics, Distribution and Uses. pp. 27-81. Available at:

View

Krasylenko Y, Kinge TR, Sosnovsky Y, Atamas N, Tofel KH, Horielov O, Rambold G (2022). Consuming and consumed: Biotic interactions of African mistletoes across different trophic levels. Biotropica 54(4):1103-1119.
Crossref

Ma R, Miao N, Zhang H, Tao W, Mao K, Moermond TC (2020). Generalist mistletoes and their hosts and potential hosts in an urban area in southwest China. Urban Forestry and Urban Greening 53:126717.
Crossref

Madisa ME, Assefa Y, Kelemoge OD, Mathowa T, Segwagwe AT (2017). Incidence and level of mistletoe infestation in tree species at Botswana University of Agriculture and Natural Resources, Sebele Content Farm Campus, Botswana. International Journal of Environmental and Agriculture Research 3:53-58.
Crossref

Magrach A, Rodríguez?Pérez J, Piazzon M, Santamaría L (2015). Divergent effects of forest edges on host distribution and seed disperser activity influence mistletoe distribution and recruitment. Journal of Ecology 103(6):1475-1486.
Crossref

Makhabu SW, Tshireletso K, Setlalekgomo MR, Kgosiesele E, Akanyang L, Legwatagwata B, Nsinamwa M, Seletlo Z, Majaga S (2021). Herbaceous communities' heterogeneity in the Kalahari sandy soils environment: A case study of Kweneng, Kgatleng Districts and Mahalapye Sub-District of Botswana. Journal of Biodiversity and Environmental Sciences18(6):87-101.

Matthies D (2021). Closely related parasitic plants have similar host requirements and related effects on hosts. Ecology and Evolution 11(17):12011-12024.
Crossref

Mokgolodi NC, Hu Y, Shi LL, Liu YJ (2011). Ziziphus mucronata: an underutilized traditional medicinal plant in Africa. Forestry studies in China 13:163-172.
Crossref

Mosha AC (2016). Urban agriculture in Botswana. Commonwealth Journal of Local Governance (18):48-67.
Crossref

Motlhanka DMT, Motlhanka P, Selebatso T (2008). Edible indigenous wild fruit plants of eastern Botswana. International Journal of Poultry Science 7(5):457-460.
Crossref

Muche M, Muasya AM, Tsegay BA (2022). Biology and resource acquisition of mistletoes, and the defense responses of host plants. Ecological Processes 11(1):24.
Crossref

Musselman LJ, Rodenburg J (2023). Parasitic Plants in African Agriculture. CABI. Available at: View

Niu Y, Laffitte B, Zuoqiu S, Seyler BC, Ha Z, Chen J, Tang Y (2024). Understanding predictors of mistletoe infection across an urban University campus in Southwest China. Urban Ecosystems pp. 1-15.
Crossref

Norton DA, Carpenter MA (1998). Mistletoes as parasites: host specificity and speciation. Trends in Ecology and Evolution 13(3):101-105.
Crossref

Okubamichael DY, Griffiths ME, Ward D (2011). Host specificity, nutrient and water dynamics of the mistletoe Viscum rotundifolium and its potential host species in the Kalahari of South Africa. Journal of Arid Environments 75(10):898-902.
Crossref

Okubamichael DY, Griffiths ME, Ward D (2016). Host specificity in parasitic plants-perspectives from mistletoes. AoB Plants 8.
Crossref

R Core Team (2013). R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna. Available at:

View

Roxburg L, Nicolson SW (2005). Patterns of host use in two African mistletoes: the importance of mistletoe-host compatibility and avian disperser behaviour. Functional Ecology. pp. 865-873.
Crossref

Setshogo MP (1998). Setswana Plant Names and the Identification of Local Flora. Botswana Notes and Records 30(1):57-66.

Setshogo M (2005). Preliminary checklist of the plants of Botswana. Southern African Botanical Diversity Network Report No. 37. Available at:

View

Skrypnik L, Maslennikov P, Feduraev P, Pungin A, Belov N (2020). Ecological and Landscape Factors Affecting the Spread of European Mistletoe (Viscum album L.) in Urban Areas (A Case Study of the Kaliningrad City, Russia). Plants 9(3):394.
Crossref

Teixeira-Costa L, Davis CC (2021). Life history, diversity, and distribution in parasitic flowering plants. Plant Physiology 187(1):32-51.
Crossref

T?šitel J (2016). Functional biology of parasitic plants: a review. Plant Ecology and Evolution 149(1):5-20.
Crossref

T?šitel J, Li AR, Knotková K, McLellan R, Bandaranayake PC, Watson DM (2021). The bright side of parasitic plants: what are they good for? Plant Physiology 185(4):1309-1324.
Crossref

Tizhe TD, Yusuf CS, Timon D, Zakawa NN, Gaman M (2020). Mistletoe Species Richness and Rate of Infestation on the Tree Species in the Campus of Adamawa State University, Mubi, Nigeria. Asian Journal of Research in Botany 4(2):33-38.

Tshireletso K, Makhabu SW, Nsinamwa M, Kgosiesele E, Setlalekgomo MR, Seletlo Z, Majaga S, Legwatagwata B (2018). Diversity patterns of woody vegetation of Kgatleng District, Botswana.
Crossref

Twyford AD (2018). Parasitic plants. Current Biology 28(16):R857-R859.
Crossref

Valle ACV, de Carvalho AC, Andrade RV (2021). Viscum album-literature review. International Journal of Scientific Research 10:63-71.

Van WB (2013). Field guide to trees of southern Africa. Penguin Random House, South Africa.

Veste M (2007). Parasitic flowering plants on Euphorbia in South Africa and Namibia. Euphorbia World 3(3):1-9.

Wahyuningtias S, Mardiastuti A, Mulyani YA (2021). Diversity of mistletoes and their distribution in Dramaga Campus, West Java, Indonesia. IOP Conference Series: Earth and Environmental Science 948.
Crossref

Walker JG, Hurford A, Cable J, Ellison AR, Price SJ, Cressler CE (2017). Host allometry influences the evolution of parasite host-generalism: theory and meta-analysis. Philosophical Transactions of the Royal Society B: Biological Sciences 372(1719).
Crossref

Watson DM, Cook M, Fadini RF (2020). Towards best-practice management of mistletoes in horticulture. Botany 98(9):489-498.
Crossref

Yoshida S, Cui S, Ichihashi Y, Shirasu K (2016). The Haustorium, a Specialized Invasive Organ in Parasitic Plants. Annual Review of Plant Biology 67:643-667.
Crossref