DROUGHT AND FOOD SCARCITY IN LIMPOPO PROVINCE, SOUTH AFRICA

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DROUGHT AND FOOD SCARCITY IN LIMPOPO PROVINCE, SOUTH AFRICA Maponya PI 1 and Mpandeli SN 2 ABSTRACT The Limpopo province is one of the poorest province in the country, characterized by high unemployment rate, poverty and lack of access to a range of resources that frustrate majority of people s ability to secure their livelihoods.the aim of the study was to describe the drought status and food scarcity in Limpopo province. The following objectives were followed: (1) To describe the current rainfall and drought status in some districts in Limpopo province and (2) To describe factors that may influence food scarcity in Limpopo province. A representative sample of 300 farmers aged 18 60+ years also participated in the study. The following 10 local municipalities were visited: Elias Motsoaledi, Makhuduthamaga, Fetakgomo, Ephraim Mogale, Tubatse, Lepelle Nkumpi, Blouberg, Aganang, Polokwane, and Molemole. The purposive sampling method used to cover the uniform or homogeneous characteristics of farmers. Data was coded, captured, and analysed using SPSS. The following analyses were conducted: Descriptive and Regressions. The results showed a positive association among the following variables: Food scarcity, Gender, Information on climate change, Adaptation to climate change and Extension service received. Keywords: Drought, climate variability, climate change, agricultural production, food scarcity, Limpopo province, South Africa. 1. INTRODUCTION South Africa is currently experiencing one of the worst droughts in history. In recent months five provinces namely Limpopo, Mpumalanga, Free State, North West and Kwazulu Natal have been declared as disaster areas due to the current drought. The situation has thrown the country into pandemonium as the water scarcity debate has taken centre stage with every sector looking for ways of conserving water. Agriculture is one of the industries that have been hardest hit by the drought. Agriculture uses more than 60% of fresh water, and most of this water is used in irrigation StatsSA(2007). Therefore the current drought has had the most devastating impacts on the agriculture industry because of the effects on the food production chain. Limpopo is the breadbasket and agricultural engine of South Africa, accounting for nearly 60% of all fruit, vegetables, maize, wheat, and cotton. Livestock farming is also a significant contributor to the province s agriculture sector. It is the source of 65% of the country s papayas, 36% of its tea, 25% of its citrus fruit, bananas, and litchis, 60% of its avocados, 60% of its tomatoes (40% by one company alone), and 35% of its oranges. It produces 285,000 tons of potatoes annually (GoLimpopo, 2016). An estimated 33% of households in Limpopo are considered agricultural households, and the province is home to 16% of South Africa s agricultural households (Steyn and Associate, 2014). Despite this, the agriculture sector contributed only three percent to the province s annual average Gross Domestic Product (GDP) in 2012. 1 Proj. Manager, Agric. Res. Council: Vegetables and Ornamental Plants, Pretoria, South Africa & Senior Res Assoc, Univ. of Johannesburg, Deptt. of Env. Management, Geography and Energy Studies, SA. 2 Res. Manager, Water Research Commission, Pretoria, South Africa & Professor, University of Venda, Deptt. of Geography and Geo Information, SA. 1

Drought has emerged one of the main challenges to Limpopo province farmers (Makhura et al., 2004). It could become a major threat to food security, as it has a strong impact on food production, access and distribution. Furthermore, given an estimate of 3 million farmers in South Africa who produce food primarily to meet their family needs, rural poverty in Limpopo province could be worsening with drought (Stats SA, 2007). Indeed, due to their low income, lower technological and capital stocks, households are predicted to have limited options to adapt to changing weather patterns like drought (Mendelsohn et al., 2000). Drought is a serious problem in the province considering that it is in a semi-arid area with low, unreliable rainfall (LDA, 2010). As a result of the severe drought, the province experienced reduced grazing land and water for livestock and irrigation. The province was worst affected by drought in the past eight years when dams were only 50% full, compared with 84% in late nineties. The agricultural is an important source of livelihood for the Limpopo province especially those in rural areas, but with extreme weather like drought, it is going to be very difficult for people to cope. It is quite disturbing that in some parts of the province, farmers are already forced to sell their livestock because of drought. This will in turn place a serious challenge for agriculture and result insufficient/ shortage amount of food (food scarcity) not only in the province but South Africa as a whole. According to Makhura (2001), a sharp decline in agricultural production would not only have implications for a province or country but also for the region as a whole. The aim of the study is to describe the drought status and food scarcity in Limpopo province. The following objectives were followed: (1) To describe the current rainfall and drought status in some districts in Limpopo province and (2) To describe factors that may influence food scarcity in the province. Limpopo province is situated in the northern part of South Africa (Figure 1). It is the gateway to the rest of Africa, with its shared borders making it favourably situated for economic cooperation with other parts of Southern Africa (StatsSA, 2011). Figure 1. Limpopo province map 2

2. METHODS The study used both quantitative and qualitative methods. A detailed questionnaire in English was developed for the data collection. According to Creswell (1994), mixed methods are used in order to explore a topic in breadth and depth. The questionnaire which included matters relating to climate change and agricultural production was used in the interviews, and focus group discussions was conducted after face to face interviews with farmers. As part of standard protocol for conducting the study, meetings were held with all stakeholders in the Capricorn and Sekhukhune districts namely: (1) Local municipalities, (2) Department of Agriculture, Forestry and Fisheries (DAFF), (3) Department of Rural Development and Land Reform (DRDLR), (4) Local economic agencies and (5) Local farmers. The aim of the meetings were to introduce and explain the intended research. A purposive sampling technique was used to select 300 agricultural projects and the following local municipalities were visited: Elias Motsoaledi, Makhuduthamaga, Fetakgomo, Ephraim Mogale, Tubatse, Lepelle Nkumpi, Blouberg, Aganang, Polokwane and Molemole. The sampling was used to assess uniformity and homogenous characteristics and to meet the objectives of the study, and it had to adhere to the statistical specifications for accuracy and representativity. Descriptive and regression analysis was used to describe data and to test association among variables Univariate analysis was conducted to demonstrate the relationship between selected variables and food scarcity as stated in the general equation below: Wi = _ + _Xi + _i (1) where, Wi is the dependent variable value for person i, Xi is the independent variable value for person I, _ and _ are parameter values, _i is the random error term. The parameter _ is called the intercept or the value of W when X = 0, the parameter _ is called the slope or the change in W when X increases by one. Figure 2. Rainfall outlook in South Africa (Limpopo province at the top) (April 2016) (ARC ISCW, 2016) 3

Figure 3. Rainfall (% of long term mean) in South Africa (Limpopo province at the top) (April 2016) (ARC ISCW, 2016), Figure 4. 24 Month SPI category in South Africa, Limpopo province at the top (April 2016) (ARC ISCW, 2016). The current SPI maps Figure 5. Capricorn District (Limpopo province) rainfall distribution (May 2015. April 2016) (ARC ISCW, 2016). 4

Figure 6. Vhembe District (Limpopo province) rainfall distribution (May 2015 April 2016(ARC ISCW, 2016). Figure 7. Mopani District (Limpopo province) rainfall distribution (May 2015 April 2016) (ARC ISCW, 2016). 3. RESULTS AND DISCUSSIONS Capricorn Dist. (Limpopo province) rainfall distribution (May 2015 April 2016) As indicated in Figure 5, there was a variation in rainfall distribution in Capricorn district overtime. According to LDA (2010), Limpopo province average annual rainfall is 600 mm and the threshold for rainfall agriculture is averaged at 250 mm annually. It is evident from Figure 5 that there was an extreme shortage of rainfall in the following year and month: June 2015, July 2015, August 2015, September 2015, November 2015 and April 2016 respectively. There was also some rainfall year and month in Capricorn district as shown in Figure 5, especially December 2015, January 2016, February 2016 and March 2016 respectively. The normalized difference vegetation index (NDVI), which measured the green on a patch of land was also a little bit high in December 2015, January 2016 and February 2016. 5

Vhembe Dist. (Limpopo province) rainfall distribution (May 2015 April 2016) As indicated in Figure 6, there wasa variation in rainfall distribution in Vhembe district overtime. It is evident from Figure 6 that there was a extreme shortage of rainfall in the following year and month: June 2015, July 2015, August 2015, November 2015 and April 2016 respectively. There were also some rainfall year and month in Vhembe district as shown in Figure 6, especially September 2015, October 2015, December 2015, January 2016, February 2016 and March 2016 respectively. The normalised difference vegetation index (NDVI), which measured the green on a patch of land was also a little bit high in December 2015, January 2016 and February 2016. As indicated in Figure 7, there was a variation in rainfall distribution in Mopani district overtime. It is evident from Figure 6 that there was a extreme shortage of rainfall in the following year and month: June 2015, July 2015, August 2015, November 2015 and April 2016 respectively. There were also some rainfall year and month in Vhembe district as shown in Figure 6, especially September 2015, October 2015, December 2015, January 2016, February 2016 and March 2016 respectively. The normalised difference vegetation index (NDVI), which measures the green on a patch of land is also a little bit high in December 2015, January 2016 and February 2016 The Limpopo province situation was also shown in figure 2 (Total rainfall in April 2016: 0 5mm and 5 10mm); figure 3 (% long term rainfall: 0 25mm and 25 50mm) and figure 4 (moderate, severe and extreme drought). It is against this worrying situation that food scarcity occurred in some parts of Limpopo province and hence the government declared the province a disaster area and had to import some million tons of maize. Table 1. Univariate regression analysis of potential determinants of food scarcity in Limpopo province Variable Frequency Total (%) OR [95%CI] Gender Male 136 45 1.00[0.373 2.403] Female 164 55 1 Information of climate change Yes 171 57 2.01[1.103 3.667] No 129 43 1 Adaptation to climate change Yes 55 18 1.78[1.013 4.464] No 245 82 1 Extension services received Yes 146 49 0.95[0.517 1.730] No 154 51 1 OR= Odds ratio; 95%CI = 95% confidence intervals; 1< = no association; 1> = association. As indicated in Table 1, the odds of farmers to face food scarcity are 1.00 times higher for male farmers than femalefarmers. This is true as IPCC (2011) emphasised that women s knowledge of seed varieties, cultivation, storage, and use is a valuable 6

form of human capital that makes them food secure. According to FAO (2011), women also play an important role in postharvest activities, and as grains or other crops come in from the fields, women decides what will be stored, processed and saved for next year crops. These activities make women farmers more food secure than men farmers, especially during drought periods. According to Table 1, the odds of farmers to face food scarcity is 2.01 higher for those that have access to climate change information than those who did not have access to information. Again, the results raised the issue of type of information farmers are receiving and the source they use in getting accurate information regarding drought. The following sources are more popular among farmers in the Limpopo province: (a) radios, (b) television, (c) newspapers and (d) magazines. As indicated in Table 1, the odds of farmers to face food scarcity are 1.78 times higher for farmers who adapt to climate variability and change than those who cannot adapt to climate variability and change. In view of this, it can be deduced that farmers do not have enough adaptation strategies hence they are still vulnerable to food scarcity. The odds of farmers to face food scarcity are 0.95 times less for farmers who receive information through extension services than those who do not receive information through extension services. This reflects the importance of extension services to avoid food scarcity. Through extension services farmers can receives skills, knowledge to produce food even in times of drought. It was also supported by Mmbengwa (2009) who said farmers with access to extension services have better chance of engaging more profitably in agriculture than those that have no access 4. CONCLUSION Drought is a recurring problem in Limpopo province. According to Mpandeli (2005) and Maponya and Mpandeli ( 2012) and Maponya and Mpandeli (2013), in times of drought, different coping strategies should be gathered, understood and shared amongst a range of end users for example, either by the national agro meteorological committee, research institutions such as Agricultural Research Council and the South African Weather Service. Limpopo province farmers should also be encouraged to use drought-resistant cultivars during drought periods to avoid food scarcity. Rainfall distribution trends are likely to increase the frequency and magnitude of extreme weather events such as droughts in Limpopo province which has already experienced some these weather events especially floods and droughts, example, floods that destroyed crops, infrastructure, affected the harvesting period in 2000 and 2012. While there is uncertainty in the projections with regard to the exact magnitude, rate and regional patterns of drought, its consequences will change the fates of generations to come. According to UNFCCC (2008), Africa will be hit hardest by climate changes, as larger areas could be stricken by yield decreases of over 50% by the year 2020 as results of increasingly hotter and drier climate. This will threaten food security and people livelihoods in most parts of Africa and thus resulting in food scarcity. This study examined the trends rainfall and drought status overtime which may results in food scarcity. The results from the present study could be used as a baseline in understanding the consequences of drought on food scarcity. As such, the analysis utilized the Statistical Package ofsocial Science Software to determine 7

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