Trends in Extreme Temperature and Rainfall Indices in the Semi-Arid

Trends in Extreme Temperature and Rainfall Indices in the Semi-Arid

Berhane et al. Environ Syst Res (2020) 9:3 https://doi.org/10.1186/s40068-020-00165-6 RESEARCH Open Access Trends in extreme temperature and rainfall indices in the semi‑arid areas of Western Tigray, Ethiopia Abadi Berhane1* , Gebre Hadgu2, Walelign Worku3 and Berhanu Abrha4 Abstract Background: Africa is the most vulnerable continent in the world; which recurrent droughts, extreme temperature and rainfall afects agriculture and food security. The aim of this study was to analyze the trends in extreme tem- perature and rainfall in major sesame producing areas in western Tigray using RClimDex software. We selected eight temperature and nine rainfall indices from 27 extreme temperature and rainfall indices, which are recommended by joint CCL/CLIVAR/JCOMM Expert Team on Climate Change Detection and Indices (ETCCDI). A non-parametric Mann– Kendall test and Sen’s slope estimates were used to test the statistical signifcance and trend of each of the extreme temperature and rainfall indices, respectively. Results: Number of heavy rainy days, number of very heavy rainy days, very wet days, extremely wet days, and maximum 5 days precipitation showed a negative trend, with signifcant (p < 0.05) decrease throughout the study area. Monthly maximum value of maximum and minimum value of maximum temperature, monthly maximum and minimum value of minimum temperature, hot days and hot nights revealed positive trend throughout the study areas. Total rainfall was decreasing signifcantly (p < 0.05) by 13.34 mm, 13.8 mm, 14.65 mm, 10.9 mm and 8.4 mm/year at Humera and Dansha, Adiremets, Maygaba, Maytsebri and Sheraro, and Adigoshu, respectively. Spatial analysis on extreme temperature also indicated there was relatively lower variability on minimum temperature in Humera, Dan- sha, Adiremets, and Adigoshu. On average, the western part of Tigray experienced a reduction in total rainfall ranging 8.45 to 14.7 mm/year; and increase in average maximum temperature of 0.04 to 0.051 °C/year since 1983 to 2016. The results also revealed an increase in warm nights and warm days ranging from 0.31 to 0.62 days, and 0.38 to 0.71 days/ year, respectively. Conclusions: Increase in temperature and decrease in amount of rainfall may have a negative impact on crop tran- spiration, photosynthetic rate and soil water balance; exacerbating distribution and infestation of malaria and leish- maniasis. The results in this study could have an important role in identifying possible present and future production strategies on sesame, cotton, and sorghum crops, which are essential cash crops produced by farmers and investors. Keywords: Extreme climate indices, Temperature, Rainfall, RClimDex software, Mann–Kendall test, Ethiopia Background Gebrechorkos et al. 2018). East African countries; Ethio- Africa is one of the most vulnerable continents due pia, Kenya and Tanzania showed an increasing tendency to its high exposure and low adaptive capacity (Niang in extreme temperature indices, and irregular rainfall et al. 2014), particularly, East Africa (Haile et al. 2019; patterns (Gebrechorkos et al. 2018). Compelling evi- dence revealed that climate change is occurring globally and concerns have arisen about its impact. Global land *Correspondence: [email protected] 1 Department of Plant Sciences, Aksum University, Aksum, Ethiopia and ocean surface temperature has increased by 0.85 °C Full list of author information is available at the end of the article (0.65 to 1.06 °C) from 1880 to 2012; and such warming © The Author(s) 2020. This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creat​iveco​ mmons​.org/licen​ses/by/4.0/. Berhane et al. Environ Syst Res (2020) 9:3 Page 2 of 20 of the Earth will continue to cause inter-annual to dec- across many areas in Ethiopia. Similarly, Tamiru et al. adal variability (IPCC 2013). Many of the observed global (2015) analyzed that annual rainfall variability was and climate changes are unprecedented in which warming of reported a high coefcient of variability (25%) in East- the atmosphere, decreasing in ice and snow, and rising of ern Ethiopia. Trend analysis over Ethiopia in the period sea level have been observed (IPCC 2014). As compared 1951-2006 indicated that annual minimum temperature to the disparity in average weather conditions, the fre- increased by about 0.37 °C every 10 years (NMA 2007). quency of extreme events has a greater environmental Belg and Kiremt rainfall have decreased by 15–20% and public health impact. Changes in the frequency and across parts of southern, Southeastern, and Southwest- severity of extreme climate events and in the variability ern Ethiopia from mid-1970s to late 2000s (Funk et al. of weather patterns on Earth will have signifcant conse- 2012). quences for human and natural systems (Tornton et al. In Ethiopia, the northern part of the country is afected 2014). by climate change and variability (Hadgu et al. 2015; Extreme climatic variability on rainfall and tempera- Araya 2011), coupled with high rainfall variability (Araya ture variability has been quantifed using coherent ana- and Stroosnijder 2011). Te region is characterized by lytical procedures and signifcant warming over wider erratic rainfall, short length of growing period, where portion of the globe (Frich et al. 2002; Alexander et al. late onset and early cessation of rain frequently occur, 2006); and the authors discussed that there was no uni- afecting crop growth and yield. According to Asaminew form temporal and spatial rainfall pattern. Likewise, Bary et al. (2017), average temperature variability in Dansha et al. (2018), Byakatonda et al. (2018), Labri et al. (2018) and Kebabo experienced increasing trend from 0.5 to and Halimatou et al. (2017) stated that extreme tem- 1.65 °C, and 0.5 to 1.5 °C, respectively in western Tig- perature indices over Africa revealed increasing warm- ray. Te author also found that slight deviation in rainfall ing trends. Recent studies on extreme temperature and was experienced since 1980 to 2010. In addition, Niguse rainfall in Ethiopia indicated that there was a signifcant and Araya (2015) found annual rainfall in Humera was increase in warming indicator values and decrease in decreasing with inter-annual variability of 16.7%, with cold spell indicator values (Gebrechorkos et al. 2018). average minimum and maximum temperature vary- According to Asfaw et al. (2018), inter and intra-annual ing between 17.5 °C and 22 °C, and 33 °C and 41.7 °C, rainfall variability was observed in the north central Ethi- respectively. opia. Similarly, Araya et al. (2011) stated that dry spells, Although climate change has location specifc impact, short length of growing period and lack of rainfall result studies related to extreme rainfall and temperature were in yield failure in northern Ethiopia. Principally, climate concentrated on the highland areas of the country. Te is one of the most important factors among the leading lowland semiarid area, where temperature is already mar- factors for vulnerability, in most parts of Ethiopia (WFP ginal for most crops, was not addressed in most studies. 2014). Hence, Ethiopia has been described as one of the Earlier studies also suggested the importance of conduct- most vulnerable countries to climate change in Africa ing location specifc analysis of weather extremes (Degefu (Conway et al. 2011). and Bewket 2014). Information related to extreme rain- Ethiopia occupies broad agro-ecological zones (Hurni fall and temperature trends in the study area is scanty. In 1986); for example from the deepest point at the Danakil addition, being the major sesame growing area that helps depression in Afar regional state at about 126 m below the country to earn hard currency next to cofee, assess- sea level, to up to the highest peak at 4562 m above sea ing the trend of rainfall and temperature extreme has level at Ras Dashen in Amhara regional state (MOA important implications for an efective management of 1998). Studies on extreme temperature and rainfall by water resources and climate risk management. Terefore, Addisu et al. (2015), Asfaw et al. (2018), Gebrechorkos this study was initiated to analyze the trends in extreme et al. (2018), and Mekasha et al. (2014) show that there temperature and rainfall indices in major sesame produc- is signifcant variability across diferent agro-ecologies in ing districts in the semi-arid areas of western Tigray. Ethiopia. Changes in climate extremes are already afect- ing socio-economic values of the society and natural sys- Materials and methods tems (Karl et al. 2008). Area description Recent studies on historical extreme temperature Tis study was conducted in fve districts (Weredas), and rainfall variability indicate there is a positive trend namely Tahtay Adiabo, Asgede-tsimbla, Tselemti, Kafta- in warming indicators in diferent regions in Ethiopia Humera and Welkait (Fig. 1). It is bordered with Republic (Asfaw et al. 2018; Mekasha et al. 2014). Asfaw et al. of the Sudan in the west, Eritrea in the north (Berhe et al. (2018), Ayalew et al. (2012) and Bewket (2009) also stated 2008), central zone of Tigray regional state in the east there is seasonal and inter-annual rainfall variability and Amhara regional state in the south.

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