Determinant factors of climate change adaptation by pastoral/agro-pastoral communities and smallholder farmers in sub-Saharan Africa: A systematic review

1.1 Background and justification

Pastoral and agro-pastoral communities and smallholder farmers in sub-Saharan Africa (SSA) are largely dependent on livestock and mixed crop–livestock production systems for their livelihood. These production systems are mainly characterized by arid and semi-arid climates with low and erratic rainfall (Fre and Tesfagergis, 2013). Although climate change (CC) is a global phenomenon, its negative impacts are more severely felt by poor people in developing countries who rely heavily on the natural resource base for their livelihoods (Gerber et al., 2013). Rural poor communities rely greatly for their survival on agriculture and livestock keeping that are among the most climate-sensitive economic sectors. In pastoral and agro-pastoral systems, livestock is a key asset for poor people, and losing livestock assets could trigger a collapse into chronic poverty and could have a lasting effect on livelihoods (Assefa et al., 2010; Freeman et al., 2007).

To cope with the changing climate, pastoralists and agro-pastoralists and smallholder farmers have, therefore, adjusted and adapted themselves by evolving livelihoods mainly dependent on livestock and livestock-related activities and small-scale agricultural practices (Fre and Tesfagergis, 2013). Adaptation is necessary if the world is to manage the risks posed by CC (Ford et al., 2011; New et al., 2011; Stafford et al., 2011). Still, even if significant actions are taken, it is clear that adaptation to the existing level of CC is critical (Ford et al., 2013).

Several research works have been conducted in different corners of SSA on the perception of farmers to climate change adaptation (CCA) and the socioeconomic factors that influence the adaptation of these farmers to the changing climate (Mudombi-Rusinamhodzi et al., 2012; Muller and Shackleton, 2014; Nabikolo et al., 2012; Osumanu et al., 2017; Ozor et al., 2010; Gedefaw et al., 2018; Legesse et al., 2013; Mabe et al., 2014; Mengistu and Haji, 2015; Serkalem et al., 2014; Alemayehu and Bewket, 2017; Mekuyie et al., 2018; Belay et al., 2017; Chingala et al., 2017; Feleke et al., 2016; Kgosikoma et al., 2018; Opiyo et al., 2016; Yila and Resurreccion, 2013; Zampaligré et al., 2014). However, these research findings are fragmented and are not in a position to support policymakers in formulating context-specific strategies. To the best knowledge of the authors, except two systematic reviews conducted on CCA (Ford et al., 2011; Lea et al., 2015), no systematic review was found on the determinant factors of CCA at a global scale in general and in Africa in particular.

1.2 Rationale of conducting systematic review

A systematic literature review is a summary and assessment of the state of knowledge on a given topic or research/review question, structured to rigorously summarize existing understanding (Ford et al., 2011; Kitchenham, 2004). Systematic approaches to research synthesis have been used unevenly across disciplines, and they are widely applied in health science research (Lea et al., 2015). However, their use in CC research is very limited (Ford et al., 2011). The advantages of systematic reviews over the traditional literature reviews are as follows:

• clearly define the research question (e.g. What are the determinant factors of CCA?) and scope of the study;

• use systematic and explicit methods and criteria to select relevant research;

• document search terms and criteria for inclusion and exclusion of papers;

• systematic selection of papers permits the use of quantitative and qualitative analysis of trends in the literature; and

• critical appraisal of study quality (Ford and Pearce, 2010; Lea et al., 2015; Higgins and Green, 2008).

Therefore, undertaking a systematic review on the existing studies will help policymakers to better understand the major socioeconomic determinant factors that influence the adaptive capacity of pastoral/agro-pastoral communities and smallholder farmers to CC impacts in the region. In addition, this review will contribute to design context-specific adaptation strategies in the sub-Saharan region and to the body of knowledge by bringing together the pieces of information from various papers together. Moreover, this review will try to identify the current research gaps and suggest researchable areas for future investigation.

1.3 Research questions

2.1 Data sources and search strategy

A comprehensive literature search was conducted by two independent researchers focusing on five major databases that are subscribed by Mekelle University and/or Open Access. These databases included the following:

1. Scopus (www.scopus.com);

2. JSTOR (www.jstor.org);

3. Science Direct (www.sciencedirect.com);

4. Google Scholar (http://scholar.google.com); and

5. African Journals Online (AJOL) (www.ajol.info).

In addition, published materials and papers were also searched from major organization databases such as the Intergovernmental Panel for Climate Change, World Health Organization, Health Inter-Network Access to Research Initiative (HINARI), Food and Agriculture Organization and United Nations Environmental Program. Moreover, manual search of retrieved reference lists was performed to make sure that all relevant resources are included. The following groups of keywords and their synonyms linked with the AND operator were used for the search (Lea et al., 2015):

• Determinant factors: Topic = (“Social” OR “Economic” OR “Socio-economic” OR “Determinant factors” OR “Influenc* factors”);

• Adaptation: Topic = (“adaptation” OR “adapt* capacit*” OR “adapt* strateg*” OR “vulnerab*” OR “resilien*” OR “coping” OR “risk reduction”);

• Pastoral and agro-pastoral: Topic = (pastoral* OR agro-pastoral* OR smallholder OR agricultur* OR farm* OR livestock OR “small holder” OR crop-livestock OR livelihood*);

• Climate change: Topic = (“climat* chang*”); and

• Sub-Saharan Africa: Topic = (“Sub-Saharan Africa” OR Sub-Sahara*).

Undertaking livestock production-related activities as adaptation measures was taken as a prerequisite to consider studies that are based in smallholder production systems. Search from the databases was performed with all the possible combinations of key words and their synonyms to maximize the outputs of the search.

2.2 Study selection and data extraction

The titles and abstracts of retrieved references were reviewed, and reference lists pertinent to CCA researches and systematic reviews were used to identify additional reports. Retrieved references from the various databases were imported into Endnote Version 9 (Karimurio, 2013) and checked for duplication. Duplicated references were removed from the database. For papers to be considered relevant for this review, they must mention strategies against CC or climate-related risk and must explicitly refer the determinant factors of CCA. Adaptation was considered in its broad definition as “anticipating the adverse effects of climate change and taking appropriate action to prevent or minimize the damage they can cause, or taking advantage of opportunities that may arise” (Lea et al., 2015; Locatelli et al., 2015).

2.3 Inclusion and exclusion criteria

In this review, the target group/population of interest were pastoral and agro-pastoral (crop–livestock farmers) communities and smallholder farmers living in SSA. The area of the systematic review was on the major determinant factors that limit the adaptive capacity of pastoral and agro-pastoral communities in SSA. Studies published prior to 2000 were not considered in this review because much emphasis on CCA is given after 2000 and more publications were available within this specified period. Peer-reviewed papers and gray literature published since 2000 were the targets of this systematic review. Studies that focused on determinant factors of CCA by pastoral and agro-pastoral communities and smallholder farmers in SSA and written in English were reviewed (Lea et al., 2015). Papers written in other languages were not considered owing to the challenge to translate them back to English.

Retrieved reference papers in journals that are not related to the research question raised in this systematic review were removed from the database. The main exclusion criteria used in this review were as follows:

• studies on CC impact, adaptation and mitigation studies out of SSA;

• studies that are not focused on CCA by pastoral and/or agro-pastoral communities/farmers;

• reviews on CC impact and/or CCA;

• studies based only on perception of farmers on CC/drought/CCA;

• studies on CC impact and/or vulnerability of farmers to CC and/or climate variability (CV) and mitigation strategies;

• generalized studies on CC and related issues at the global/continental/regional level; and

• studies focused on pastoral/agro-pastoral livelihoods/food security/CC impacts/health/migration.

2.4 Study quality assessment

To ensure the quality of the systematic review, the Centre for Reviews and Dissemination (CRD’s) guidelines (Khan et al., 2001) and Cochrane handbook for systematic reviews of intervention (Higgins and Green, 2008) were used. After clearly stating the research question, a literature search was conducted from the major databases for climate-related research, and a comprehensive search was performed by two independent researchers. A clear set of inclusion and exclusion criteria were used; selection bias was avoided by searching for related literature from the websites of major organizations working on climate-related areas; and a clear selection process was followed to screen the papers retrieved from the databases.

2.5 Analyzing and synthesizing evidence

In this systematic review process, the authors came to understand that some of the finally qualified papers used a qualitative, quantitative or mixed-methods research approach. This is a common approach in most of the CCA research works and reviews (Lea et al., 2015). Thus, descriptive statistics (Stata Version 15) was used to summarize trends in the publications with categories guided by the typology questionnaire. However, inferential statistics was not feasible owing to the limited number of studies (n = 36) and mixed-methods research approaches used in the studies (Ford et al., 2011). In addition, the applications of Endnote X9 and NVivo Version 12 software (Basak, 2015; Di Gregorio, 2000) were used in the organization, selection and analysis. The NVivo software was used for qualitative extraction and analysis of the finally selected papers. The selected papers were coded using predefined thematic areas related to the review questions. The major thematic areas used for the coding were literature-based impacts of CC identified by authors, study country and area and sample size used, approach used for analyzing the determinant factors, type of CC experienced by respondents (indicators of CC), CC impact experienced by respondents, CCA strategies used by respondents, determinant factors investigated, the major identified determinant factors of CCA and recommendations (policy issues) forwarded. On this basis, coding categories were created and organized around the themes established, and each paper was read in depth again and coded, whereby sections of the text were manually assigned the appropriate code using NVivo software. The coded text was then retrieved, evaluated and compared with the quantitative analysis to identify the major adaptation strategies and determinant factors. For mapping the distribution of studies in SSA countries, the application of qGIS software was used.

3.1 Retrieved papers

The search was conducted from September 2018 to January 2019 and resulted in 3,028 papers. After removing duplicates and papers published before 2000, 2,033 papers remained.

3.2 Screening process and results of retrieved papers

After removing the duplicates and papers published before 2000, 2,033 papers were screened based on their title and abstract considering the inclusion and exclusion criteria, which resulted in the exclusion of 1,903 papers (Table I). The remaining 130 papers were reviewed in detail, and 94 of them were excluded for different reasons (Table II). In the final stage, 36 papers qualified for the review, where 9, 8 and 17 of them were studies on determinant factors of CCA by pastoralists, agro-pastoralists and smallholder farmers, respectively. Two of the studies assessed the determinant factors of CCA in both pastoral and agro-pastoral communities in SSA (Figure 1).

At the initial search, majority of the papers were retrieved from the Science Direct (48.2 per cent, 1,461/3,028) database, followed by Scopus (32.8 per cent, 994/3,028). However, after the final screening, 41.7 per cent (15/36) and 27.8 per cent (10/36) of the papers included in the review were from Scopus and Google scholar databases, respectively (Table II).

3.3 Geographic distribution of the studies

Out of the 51 SSA countries, studies related to determinant factors of CCA by pastoral and agro-pastoral communities and smallholder farmers related to the research questions were reported from 13 countries. The highest number of studies was reported from Ethiopia, followed by Kenya (Figure 2). In terms of regional distribution, the highest number of studies was reported from East Africa (21, 58.3 per cent) (Table III).

3.4 Approach used to assess determinant factors

The mean sample size used by studies in pastoral, agro-pastoral and smallholder farmers was 203, 173 and 253, respectively. The minimum sample size (50) was recorded in a study conducted in pastoral/livestock production system, and maximum sample size (800) was recorded in the smallholder farming system. About 36.4 per cent (4/11), 80 per cent (8/10) and 82.4 per cent (14/17) of research papers conducted in the pastoral, agro-pastoral and smallholder production systems, respectively, used Logistic/logit regression models (binary/ordered/multinomial) to evaluate the determinant factors of CCA. Some of the researchers also used more than one tool to assess determinant factors.

3.5 Climate change adaptation strategies

All the studies conducted in pastoral and agro-pastoral communities assessed the major CCA strategies implemented by the farmers. However, in case of studies that targeted smallholder farmers, 14 out of 17 studies tried to assess the CCA strategies. The most commonly practiced CCA strategies in pastoral communities were purchasing and providing supplementary feed (fodder, crop residues, concentrate), herd destocking and diversification of livestock species/types, followed by changing herd composition (shifting to camel/small ruminants/poultry) and herd mobility/migration (Table IV).

The adaptation strategies exercised by agro-pastoral communities were crop diversification (growing different varieties of food and cash crops) and diversifying, changing or supplementing livestock feed, followed by changing the cropping calendar (changing planting and harvesting dates) and mixed crop–livestock farming (Table V). The predominant adaptation strategy implemented by smallholder farmers was crop diversification/planting varieties of crops, followed by adopting drought-tolerant crops, planting early maturing crops and changing the cropping calendar (Table VI).

3.6 Determinant factors of climate change adaptation

In the pastoral production systems, five out of 11 studies investigated several determinant factors, but the remaining six focused only on few determinant factors. In agro-pastoral production systems, seven of the studies investigated several determinant factors. Except one study that focused on three determinant factors, the remaining studies (16) investigated several determinant factors.

In the pastoral production systems, household income/capital (72.7 per cent), access to information (63.6 per cent) and institutional/government support (54.5 per cent) were prioritized as the top three major determinant factors that influence the adaptation of pastoral/livestock producing communities to CCA (Table VII). Whereas, in the agro-pastoral communities, access to information (70), household income/capital (60), age of household head (50) and land/livestock ownership (50) were identified as the major determinant factors (Table VIII). Household income/capital (47.1 per cent), land ownership (47.1 per cent), access to information (47.1 per cent), farm size (47.1 per cent), household size (41.2 per cent) and access to extension service (41.2 per cent) were indicated as the major determinant factors of CCA in the smallholder production systems (Table IX).