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Journal articles on the topic 'Parasites – South Africa – Eastern Cape'

Author: Grafiati
Published: 4 June 2021
Last updated: 3 February 2022

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1

Bhat, VG, SD Vasaikar, N. Nxasana, and K. Baba. "Prevalence of intestinal parasites in primary school children of mthatha, Eastern Cape Province, South Africa." Annals of Medical and Health Sciences Research 3, no. 4 (2013): 511. http://dx.doi.org/10.4103/2141-9248.122064.

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2

Gwaze, F. Rumosa, M. Chimonyo, and K. Dzama. "Prevalence and loads of gastrointestinal parasites of goats in the communal areas of the Eastern Cape Province of South Africa." Small Ruminant Research 84, no. 1-3 (June 2009): 132–34. http://dx.doi.org/10.1016/j.smallrumres.2009.06.013.

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3

Mtintsilana, Olona, Babatope Ebenezer Akinyemi, and Leocadia Zhou. "Determinants of adaptation to climate variability among farming households in Tyhume Valley communities, Eastern Cape province, South Africa." International Journal of Climate Change Strategies and Management 13, no. 2 (May 26, 2021): 181–90. http://dx.doi.org/10.1108/ijccsm-06-2020-0057.

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Purpose This paper aims to determine factors affecting adaptation to climate variability on crop production among farming households in Tyhume Valley. Design/methodology/approach This study conducted an empirical analysis of the impact of adaptation on crop yield of farming households and estimated the factors affecting adaptation to climate variability on farming households. The analysis used primary data from 205 farming households practicing crop production in Tyhume Valley communities. Findings Based on binary logit results, factors affecting rural farming households’ adaptation to climate variability are gender, age, heatwave, employment status, strong high wind occasional experience and cell phone. The adaptation measures adopted by the farming households in the study area include irrigation (94.8%), crop rotation (66%), changing crop variety (7.4%) and other methods of adaptation were found to be (1.3%). The other methods of adaptation used included the use of ash to kill (intuku) mole and using dirty water from washing dishes and clothes when irrigating to kill parasites on crops. Originality/value This research paper will be an addition to the body of knowledge on adaptation strategies to climate variability in South Africa, especially at the rural farming household level. This study may assist the rural communities in decision-making when dealing with the challenges of climate variability on their crop production, thereby increasing their crop production. The information gathered in this study might assist policymakers in revising the existing policies. This study will also help rural farming households to practice appropriate adaptation strategies.
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4

Mamogobo, M. D., N. O. Mapholi, K. A. Nephawe, T. L. Nedambale, T. J. Mpofu, Y. P. Sanarana, and B. J. Mtileni. "Genetic characterisation of non-descript cattle populations in communal areas of South Africa." Animal Production Science 61, no. 1 (2021): 84. http://dx.doi.org/10.1071/an20030.

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Context Indigenous cattle breeds represent an important genetic resource for livelihood of communal-area inhabitants. Indigenous breeds have the ability to withstand harsh climatic conditions, can adapt genetically to poor-quality forages and are resistant to parasites and diseases. These unique traits possessed by indigenous breeds are under threat because of unrestrained crossing with exotic commercial breeds, and this can lead to total loss of a breed. Aims The study was conducted to assess the genetic diversity and population structure of South African non-descript communal beef cattle populations by using 25 microsatellite markers. Methods Unrelated and non-descript animals (n = 150) were sampled from communal areas from five (5) provinces of South Africa, namely, Eastern Cape, KwaZulu–Natal, Limpopo, Mpumalanga and the North West, with 30 samples per breed taken. Six (6) known cattle breeds (n = 180) were used as a reference population. This included Angus, Afrikaner, Bonsmara, Brahman, Drakensberger and the Nguni, with 30 samples per breed. Key results High level of genetic diversity was found across the five non-descript populations, with an average heterozygosity of 75%. The Limpopo population was found to be the most diverse population, with the highest average number of alleles (8.5) and heterozygosity (ranging between observed heterozygosity of 70% and expected heterozygosity of 79%). STRUCTURE software assigned populations (2 ≤ K ≤ 20), with the most probable cluster being at K = 7. The Eastern Cape, KwaZulu–Natal and Limpopo populations had genetic material similar to those possessed by the Nguni and Bonsmara reference populations. Conclusions Results from the study showed that most genetic differentiation occurred within populations rather than among populations, and this might be due to the fact that there is no selection for or against any specific production trait expressed in the populations. Implications The obtained information will serve as a baseline for the development and implementation of sound breeding programs that will assist in controlling the gene flow, so as to lower the possible genetic dilution of the currently available genetic material.
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5

Mwale, M., and P. J. Masika. "Ethno-veterinary control of parasites, management and role of village chickens in rural households of Centane district in the Eastern Cape, South Africa." Tropical Animal Health and Production 41, no. 8 (May 22, 2009): 1685–93. http://dx.doi.org/10.1007/s11250-009-9366-z.

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6

Maphosa, Viola, and Patrick Julius Masika. "Ethnoveterinary uses of medicinal plants: A survey of plants used in the ethnoveterinary control of gastro-intestinal parasites of goats in the Eastern Cape Province, South Africa." Pharmaceutical Biology 48, no. 6 (May 6, 2010): 697–702. http://dx.doi.org/10.3109/13880200903260879.

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7

De Kock, Kenné, and Corrie Wolmarans. "Distribution and habitats of Pisidium viridarium Kuiper, 1956 (Bivalvia: Sphaeriidae) as reflected by the records of the National Freshwater Snail Collection of South Africa." Suid-Afrikaanse Tydskrif vir Natuurwetenskap en Tegnologie 27, no. 3 (September 16, 2008): 183–95. http://dx.doi.org/10.4102/satnt.v27i3.90.

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The genus Pisidium includes some of the smallest bivalves in the family Sphaeriidae. The distribution of this group is cosmopolitan and they can utilize virtually any freshwater habitat,including peat bogs. Without doubt their centre of evolution lies in the Holarctic Region and theorigin of Pisidium is considered to be Mesozoic. This article focuses on the geographical distribution and habitats of P. viridarium, the most well represented species of this genus in the database of the National Freshwater Snail Collection (NFSC) of South Africa. Details pertaining to the habitats of the 639 samples of P. viridarium as recorded at the time of collection were extracted from the database of the NFSC. The number of loci (1/16 th square degrees) in which the 639 collection sites were located, was distributed in pre-selected intervalsof mean annual air temperature and rainfall, as well as intervals of mean altitude, to illustratethe frequency of occurrence within specific intervals. A temperature index was calculated for allmollusc species in the database from their frequencies of occurrence within the selected intervals and the results used to rank them in order of their association with low to high climatic temperatures. To evaluate the significance of the difference between frequencies of occurrence in, on, or at the various options for each parameter investigated, chi-square values were calculated. Furthermore, an effect size value was calculated to determine the contribution of each parameter towards establishing the geographical distribution of this species as reflected by the data in the database. Additionally, a multivariate analysis in the form of a decision tree was constructed from the data which enabled the selection and ranking of those variables that maximally discriminated between the frequency of occurrence of P. viridarium in, on, or at the various options for each parameter as compared to all other mollusc species in the database. The 132 different loci from which the samples were collected, display a relatively continuous distribution in the south-eastern part of the North West Province, the northern part of Gauteng, the central part of Mpumalanga and Lesotho. P. viridarium is sporadically distributed in the Eastern Cape and Free State, poorly represented in the Northern and Western Cape and completely absent from Limpopo. Its absence in certain areas of South Africa should be attributed to unfavourable environmental conditions rather than to a lack of opportunities to disperse: there are many agents and frequent opportunities for passive dispersal reported in literature for Sphaeriidae and the presence of P. viridarium in this country had already been recorded in 1950.This species was reported from 13 of the 14 habitat types represented in the database. However, the majority of samples were collected in marshes and in habitats of which the water conditions were described as clear, fresh and standing. The decision tree analysis indicated that temperature, altitude, type of water-body and substratum were the most important factors, of those investigated, that influenced the geographical distribution of this species in South Africa. It is known from reports in literature that bivalves can accumulate heavy metals from superficial sediments and the fact that P. viridarium is a filter feeder, a bottom dweller and can utilize a relatively large variety of habitats under a wide range of climatic conditions, could make it a useful candidate for monitoring heavy metal levels in freshwater habitats. It is recommended that the feasibility of such a possibility be investigated. In view of the reports from elsewhere in the world that Pisidium species can serve as intermediate hosts for helminth parasites that can affect the well-being of humans and animals, it is suggested that the potential of P. viridarium toact as intermediate host for harmful helminth parasites be evaluated. Efforts should also be made to update the geographical distribution of molluscs especially those that could play an important role in the life cycle of economically important helminth parasites.
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Krecek, R. C., R. K. Reinecke, N. J. P. Kriek, I. G. Horak, and F. S. Malan. "Helminth Parasites of Cape Mountain Zebras from Cape Province, South Africa." Journal of Wildlife Diseases 30, no. 2 (April 1994): 277–80. http://dx.doi.org/10.7589/0090-3558-30.2.277.

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9

Shaw, Paul, and Colin A. Lewis. "The Geomorphology of the Eastern Cape, South Africa." Geographical Journal 163, no. 3 (November 1997): 296. http://dx.doi.org/10.2307/3059727.

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10

Van der Horst, Bram, and Paul Hebinck. "‘Irrigation by night’ in the Eastern Cape, South Africa." Water SA 43, no. 1 (February 1, 2017): 28. http://dx.doi.org/10.4314/wsa.v43i1.05.

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11

Heeren, G. A. "SHIGELLA OUTBREAK INVESTIGATION IN THE EASTERN CAPE, SOUTH AFRICA." Epidemiology 9, Supplement (July 1998): S50. http://dx.doi.org/10.1097/00001648-199807001-00116.

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12

Lemon, Anthony. "Redressing School Inequalities in the Eastern Cape, South Africa." Journal of Southern African Studies 30, no. 2 (June 2004): 269–90. http://dx.doi.org/10.1080/0305707042000215392.

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13

Euvrard, George. "Career needs of Eastern Cape pupils in South Africa." British Journal of Guidance and Counselling 24, no. 1 (February 1, 1996): 113–28. http://dx.doi.org/10.1080/03069889600760101.

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14

Euvrard, George. "Career needs of Eastern Cape pupils in South Africa." British Journal of Guidance & Counselling 24, no. 1 (February 1996): 113–28. http://dx.doi.org/10.1080/03069889608253712.

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15

Pfeiffer, Morgan B., Jan A. Venter, and Colleen T. Downs. "Observations of microtrash ingestion in Cape Vultures in the Eastern Cape, South Africa." African Zoology 52, no. 1 (January 2, 2017): 65–67. http://dx.doi.org/10.1080/15627020.2016.1270172.

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16

Berry, M. G., B. L. Robertson, and E. E. Campbell. "Impacts of Informal Settlements on South-Eastern Cape Coastal Vegetation (South Africa)." Global Ecology and Biogeography Letters 4, no. 5 (September 1994): 129. http://dx.doi.org/10.2307/2997531.

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17

La Cock, G. D., and J. H. Briers. "Bark collecting at Tootabie Nature Reserve, eastern Cape, South Africa." South African Journal of Botany 58, no. 6 (December 1992): 505–9. http://dx.doi.org/10.1016/s0254-6299(16)30800-6.

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18

de Klerk, Vivian, and Barbara Bosch. "Naming Practices in the Eastern Cape Province of South Africa." Names 44, no. 3 (September 1996): 167–88. http://dx.doi.org/10.1179/nam.1996.44.3.167.

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19

Rice, Kathleen. "Understandingukuthwala: Bride abduction in the rural Eastern Cape, South Africa." African Studies 77, no. 3 (April 23, 2018): 394–411. http://dx.doi.org/10.1080/00020184.2018.1464752.

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20

GOUGH, DAVID. "The English of white Eastern Cape farmers in South Africa." World Englishes 15, no. 3 (November 1996): 257–65. http://dx.doi.org/10.1111/j.1467-971x.1996.tb00113.x.

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21

Tusenius, M. L. "Charcoal Analytical Studies in the North-Eastern Cape, South Africa." Goodwin Series 6 (June 1989): 77. http://dx.doi.org/10.2307/3858135.

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22

Cloete, E. C., and R. A. Lubke. "Flora of the Kap River Reserve, Eastern Cape, South Africa." Bothalia 29, no. 1 (September 30, 1999): 139–49. http://dx.doi.org/10.4102/abc.v29i1.585.

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A detailed analysis ot the flora of the newly proclaimed Kap River Reserve (600 ha) is given. The reserve is adjacent to the Fish River and some 5 km from the Fish River Mouth It consists of a coastal plateau up to 100 m a.s.I. which is steeply dissected by the two rivers that partially form the boundary of the reserve. The flora of the reserve was sampled over a period o f three years and plants were collected in all the vegetation types of grassland, thicket and forest. 488 species were collected with a species to family ratio of 4:4. The majority of the taxa recorded represent the major phytochoria of the region. Nineteen species are endemic to the Eastern Cape, two are classed as vulnerable, five are rare, six are protected and a further seventeen are of uncertain status. The flora of the Kap River has closest affinities to that of the Alexandria Forest.
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23

Richings, G. "King's Shropshire Light Infantry Monument, Keiskammahoek, Eastern Cape, South Africa." Notes and Queries 60, no. 2 (April 16, 2013): 305. http://dx.doi.org/10.1093/notesj/gjt089.

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24

Nel, E. L., and T. R. Hill. "Demographic trends in the Eastern Cape Province of South Africa." Urban Forum 9, no. 1 (March 1998): 131–41. http://dx.doi.org/10.1007/bf03033134.

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25

Boshoff, W. H. P., Z. A. Pretorius, and B. D. van Niekerk. "Establishment, Distribution, and Pathogenicity of Puccinia striiformis f. sp. tritici in South Africa." Plant Disease 86, no. 5 (May 2002): 485–92. http://dx.doi.org/10.1094/pdis.2002.86.5.485.

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Stripe rust, caused by Puccinia striiformis Westend. f. sp. tritici Eriks., has become an endemic disease of wheat (Triticum aestivum L.) in South Africa since it was first observed near Moorreesburg, Western Cape during August 1996. The main objectives of this study were to monitor the occurrence, spread, and the possible development of new variants of the stripe rust pathogen and the susceptibility of grass species to the pathogen. Results of surveys conducted during 1996 to 1999 revealed that rainfed wheat produced in the Western Cape, Eastern Cape, and the eastern Free State, as well as irrigated wheat produced in KwaZulu-Natal and the Free State, are most likely to be affected by stripe rust epidemics. Pathotype 6E16A- with virulence to Yr2, Yr6, Yr7, Yr8, Yr11, Yr14, Yr17, and Yr19 and pathotype 6E22A- with added virulence to Yr25 were detected. The occurrence of pathotype 6E22A- is currently restricted to KwaZulu-Natal and the Free State. Stripe rust isolates found on Hordeum murinum L. in the Western Cape were identified as pathotype 6E16A-, and both pathotypes 6E16A- and 6E22A- were collected from Bromus catharticus Vahl (= B. unioloides H.B.K.) in the eastern Free Sate. Urediospores from infections similar to stripe rust found on the grass species Dactylis glomerata L. (Eastern Cape), Poa pratensis L. (= P. bidentata Stapf; Western Cape), and P. annua and P. triviales L. (eastern Free State) failed to infect wheat cv. Morocco seedlings in the glasshouse. The possible role of grasses in the over-summering of the stripe rust pathogen has not yet been established. Stripe rust infections, however, have been found on summer-sown wheat in the south Western Cape during 1998, volunteer wheat growing in the summer and autumn months in the eastern Free State from 1998 to 2000, and on summer-sown wheat in Lesotho.
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26

LANSDOWN, RICHARD V., RENE GLEN, and GUSTAVO HASSEMER. "Notes on the genus Callitriche (Plantaginaceae) in South Africa." Phytotaxa 317, no. 3 (August 18, 2017): 219. http://dx.doi.org/10.11646/phytotaxa.317.3.6.

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Historically there has been confusion over the status and identification of Callitriche species in South Africa. Review of herbarium specimens and fieldwork have enabled confirmation of the presence of C. deflexa as a naturalised species in this country and confirmed that C. compressa and specimens named as C. bolusii are conspecific. Field surveys showed that C. compressa still occurs in the areas from which most historic collections were made with no evidence of a decline, it is widespread but local in Kwa-Zulu Natal and Eastern Cape Provinces and extends into eastern Western Cape Province. However because it is known from only five widely scattered sites, it is classed as Vulnerable under the IUCN Red List. We also typify here the names C. compressa and C. deflexa.
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27

Siqwana-Ndulo, Nombulelo. "Rural African Family Structure in the Eastern Cape Province, South Africa." Journal of Comparative Family Studies 29, no. 2 (August 1998): 407–17. http://dx.doi.org/10.3138/jcfs.29.2.407.

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28

Reid, Derek A., and A. Jacot Guillarmod. "Marasmius titanosporus, a new species from the Eastern Cape, South Africa." Transactions of the British Mycological Society 91, no. 4 (December 1988): 707–9. http://dx.doi.org/10.1016/s0007-1536(88)80052-4.

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29

Brink, E., A. P. Dold, and P. Goldblatt. "Drimia acarophylla (Hyacinthaceae), a new species from Eastern Cape, South Africa." South African Journal of Botany 69, no. 3 (October 2003): 396–400. http://dx.doi.org/10.1016/s0254-6299(15)30322-7.

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30

Mohuba, Seeke C., Tamiru A. Abiye, Molla B. Demlie, and Moneri J. Modiba. "Hydrogeological Characterization of the Thyspunt Area, Eastern Cape Province, South Africa." Hydrology 7, no. 3 (July 31, 2020): 49. http://dx.doi.org/10.3390/hydrology7030049.

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This paper presents a comprehensive hydrogeological investigation that involves field work, aquifer test, hydrogeochemical analysis, environmental isotope analysis, and interpretations around a proposed nuclear power facility in South Africa. The study was undertaken to test the complementarity of the various methods in the coastal aquifer and to verify the hydrogeological conditions within and around the site. The study revealed the presence of two types of aquifers: an upper primary aquifer made up of the Cenozoic deposits of the Algoa Group, and a deeper fractured aquifer made of the Palaezoic Table Mountain Group (TMG) metasedimentary rocks. Owing to ductile deformation in the form of folding, the fractured quartzite and shale aquifers resulted in an artesian condition, often characterized by slightly acidic (pH ≤ 6) and iron-rich groundwater. The most important hydrogeochemical processes responsible for the observed changes in the hydrochemical composition and facies are mineral dissolution, ion exchange and mixing. The environmental isotope results suggest that all groundwater samples are characterized by a depleted δ18O and δ2H signal, indicating high latitude moisture source (southern polar region) and recharge from rainfall, with no or minimal evaporation before and during infiltration. Similarities in the stable isotope signatures between the deeper and shallow aquifer confirm the presence of a strong hydraulic link. The residence time of groundwater in the aquifers underlying the proposed nuclear power plant is estimated using tritium (3H) and 14C, and the results indicate that in the shallow aquifer it ranges from recent recharge to 50 years, and in the deeper aquifer, it ranges from 430 ± 5 years to 1000 ± 10 years, which exists in a quasi-pristine condition.
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31

Merkle, Tobias FC. "Vocalisations of the Southern Boubou in the Eastern Cape, South Africa." Ostrich 81, no. 1 (March 7, 2010): 77–79. http://dx.doi.org/10.2989/00306525.2010.455822.

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32

Kaposhi, B. M., N. Mqoqi, and D. Schopflocher. "Evaluation of antiretroviral treatment programme monitoring in Eastern Cape, South Africa." Health Policy and Planning 30, no. 5 (June 17, 2014): 547–54. http://dx.doi.org/10.1093/heapol/czu028.

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33

Agholor, Isaac A. "Comparison of two Agricultural Irrigation Schemes in Eastern Cape, South Africa." Journal of Agricultural Extension 23, no. 1 (January 23, 2019): 183. http://dx.doi.org/10.4314/jae.v23i1.16.

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34

Dold, A. P., and M. L. Cocks. "Preliminary list of Xhosa plant names from Eastern Cape, South Africa." Bothalia 29, no. 2 (October 1, 1999): 267–92. http://dx.doi.org/10.4102/abc.v29i2.601.

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1 990 Xhosa names for 1 065 taxa that have been identified in the Selmar Schonland Herbarium and have had names confirmed by more than one source, are listed alphabetically as a further addition to the knowledge of vernacular names of plants for Eastern Cape. Ecological terms are given at the end of the list.
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35

Luce, Cate, Rosie Soffair, and Andy Parrish. "Improving intravenous fluid prescribing in the Eastern Cape in South Africa." BMJ Open Quality 8, no. 3 (August 2019): e000406. http://dx.doi.org/10.1136/bmjoq-2018-000406.

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Intravenous fluids are an essential component of patient care, but a 2013 National Institute for Health and Care Excellence (NICE) guideline noted that inappropriate prescribing or administration may lead to actual or potential patient harm in up to 20% of patients.1 This project aimed to improve prescribing documentation and communication between nurses and doctors regarding intravenous fluid management. This was done through the introduction of a fluid chart, in combination with teaching on appropriate fluid management. It was initiated within the medical department of Cecelia Makiwane Hospital in East London, South Africa. 309 patients were included and data were analysed over a 6-month period. The outcome measures were the standards of intravenous fluid prescribing set by the NICE guidelines. The process measure was the use of the new chart. Baseline data highlighted that there was no standardised location for fluid prescriptions within the bedside notes. Following the intervention, 81% of fluid prescriptions were on a fluid chart. The percentage of fluid scripts with a 24-hour fluid prescription, a recorded indication and recorded input increased after the intervention. Seventy six per cent of patients received more than 50% of the fluids prescribed following the intervention compared with 22% at baseline. These results indicated an increase in the doctor’s awareness of appropriate fluid prescribing and an improvement in the communication between doctors and nurses regarding the patient’s fluid management. The engagement of local stakeholders and staff was fundamental to the success of the project and allowed for this change in practice. Fluid management is a vital part of care in many specialties; therefore, a toolkit has been created to allow similar quality improvement projects to be implemented across other hospitals around the Eastern Cape.
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Brown, C. R., and D. M. Peinke. "Activity patterns of springhares from the Eastern Cape Province, South Africa." Journal of Zoology 272, no. 2 (June 2007): 148–55. http://dx.doi.org/10.1111/j.1469-7998.2006.00249.x.

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37

Meel, BL. "Trends of rape in the Mthatha area, Eastern Cape, South Africa." South African Family Practice 50, no. 1 (January 2008): 69–69. http://dx.doi.org/10.1080/20786204.2008.10873675.

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38

Obiyo, Robert. "Oversight of the Executive in the Eastern Cape Province, South Africa." Journal of Contemporary African Studies 31, no. 1 (January 2013): 95–116. http://dx.doi.org/10.1080/02589001.2012.758457.

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39

Zerihun, Mulatu Fekadu, Mammo Muchie, and Zeleke Worku. "Determinants of agroforestry technology adoption in Eastern Cape Province, South Africa." Development Studies Research 1, no. 1 (January 2014): 382–94. http://dx.doi.org/10.1080/21665095.2014.977454.

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40

Loeb, Mitchell, Arne H. Eide, Jennifer Jelsma, Mzolisi ka Toni, and Soraya Maart. "Poverty and disability in Eastern and Western Cape Provinces, South Africa." Disability & Society 23, no. 4 (June 2008): 311–21. http://dx.doi.org/10.1080/09687590802038803.

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41

BECKEDAHL, H. R., and A. B. DE VILLIERS. "ACCELERATED EROSION BY PIPING IN THE EASTERN CAPE PROVINCE, SOUTH AFRICA." South African Geographical Journal 82, no. 3 (September 2000): 157–62. http://dx.doi.org/10.1080/03736245.2000.9713709.

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42

Oelofse, Diana, and Ilse Truter. "Incidence of haematological malignancies, Eastern Cape Province; South Africa, 2004–2013." Cancer Epidemiology 53 (April 2018): 166–71. http://dx.doi.org/10.1016/j.canep.2018.01.016.

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43

Stephenson, Rob, Andy Beke, and Delphin Tshibangu. "Contextual influences on contraceptive use in the Eastern Cape, South Africa." Health & Place 14, no. 4 (December 2008): 841–52. http://dx.doi.org/10.1016/j.healthplace.2008.01.005.

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44

Obaromi, Davies, James Ndege, and Qin Yongsong. "Disease mapping of tuberculosis prevalence in Eastern Cape Province, South Africa." Journal of Public Health 27, no. 2 (June 12, 2018): 241–48. http://dx.doi.org/10.1007/s10389-018-0931-7.

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45

Parhanse, Rashnee. "Peripheral Small Town Development: Senqu Municipality, Eastern Cape Province, South Africa." Urban Forum 18, no. 2 (July 28, 2007): 105–15. http://dx.doi.org/10.1007/s12132-007-9005-6.

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46

Crouch, N., and T. J. Edwards. "CRASSULACEAE: CRASSULA STREYI RECORDED FROM THE EASTERN CAPE, SOUTH AFRICA." Bothalia 37, no. 2 (August 18, 2007): 208–9. http://dx.doi.org/10.4102/abc.v37i2.319.

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Klopper, R. R., S. P. Bester, and G. F. Smith. "PTERIDOPHYTA: RANGE EXTENSION RECORDS FROM THE SOUTHERN DRAKENSBERG. EASTERN CAPE, SOUTH AFRICA." Bothalia 40, no. 1 (July 22, 2010): 82–83. http://dx.doi.org/10.4102/abc.v40i1.192.

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Schultz, Albert, and Phil Whittington. "High prevalence of avian malaria infection to avifauna at Cape Receife, Eastern Cape, South Africa." Ostrich 76, no. 1-2 (March 2005): 56–60. http://dx.doi.org/10.2989/00306520509485473.

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Wimberger, Kirsten, Kate F. Carstens, Johann C. Carstens, and R. Stephen Boyes. "Nest boxes for Cape Parrots Poicephalus robustus in the Hogsback area, Eastern Cape, South Africa." Ostrich 89, no. 1 (December 23, 2017): 79–85. http://dx.doi.org/10.2989/00306525.2017.1405094.

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Stewardson, C. L., and H. J. Fourie. "ENDOPARASITES OF THE CAPE FUR SEALARCTOCEPHALUS PUSILLUS PUSILLUSFROM THE EASTERN CAPE COAST OF SOUTH AFRICA." Transactions of the Royal Society of South Africa 53, no. 1 (January 1998): 33–51. http://dx.doi.org/10.1080/00359199809520372.

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You might also be interested in the bibliographies on the topic 'Parasites – South Africa – Eastern Cape' for other source types:
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