Journal of Sustainable Development; Vol. 5, No. 12; 2012 
ISSN 1913-9063 E-ISSN 1913-9071 
Published by Canadian Center of Science and Education 

Gender and Adaptation Practices to the Effects of Climate Change in 
Bahi and Kondoa Districts Dodoma Region, Tanzania 

Okuli W. Swai1, Jonathan S. Mbwambo2 & Flavianus T. Magayane3 
1 Department of Development Studies, School of Social Sciences, University of Dodoma, Dodoma, Tanzania 
2 Development Studies Institute, Sokoine University of Agriculture, Morogoro, Tanzania 
3 Agricultural Education and Extension, Sokoine University of Agriculture, Morogoro, Tanzania 
Correspondence: Department of Development Studies, School of Social Sciences, University of Dodoma, P.O. 

Box 1073, Dodoma, Tanzania. Tel: 255-714-206-782. E-mail:okuliwilly@yahoo.com 

Received: October 11, 2012 Accepted: November 16, 2012 Online Published: November 29, 2012 
doi:10.5539/jsd.v5n12p65 URL: http://dx.doi.org/10.5539/jsd.v5n12p65 

Abstract 

Climate change has different effects between men and women, but disaggregated data by gender to realize 
specific adaptation practices undertaken by men and women in Tanzania are scarce. To fill part of the 
information gap, this study analyzed adaptation practices to the effects of climate change by gender in Bahi and 
Kondoa Districts Dodoma region, Tanzania. The study also analyzed perception of climate change and identified 
elements influencing adaptation practices. A sample of 360 respondents, 12 focus groups of discussants and 78 
key informants were consulted. Analysis involved descriptive statistics for quantitative data and content analysis 
for qualitative data. Results showed that women were more devoted to adaptation practices that enabled them to 
adapt to or reduce hunger/food, water and firewood shortages while men were more devoted to adaptation 
practices that enabled them to adapt to or reduce effects of climate change on crops, livestock and environment. 
The corrected Rao-Scott chi-square (.c2) test showed significant association between adaptation practices 
implemented by respondents and sex, revealing that undertaken adaptation practices varied by sex. Respondents 
perceived climate change and managed to identify adaptation practices undertaken to manage climate change 
effects. The findings can be used to improve/formulate appropriate adaptation practices to manage climate 
change problems in agriculture sector. The study recommends systematic collection of in-depth information of 
this kind at the community level in other areas of Dodoma Region, Tanzania and the LDCs in order for the 
policy makers to design and implement appropriate interventions to manage climate change problems. 

Keywords: climate change, gender, agricultural production, adaptation practices 

1. Introduction 
Despite the fact that climate change has different effects between men and women, disaggregated data by gender 
to realize specific adaptation practices undertaken by men and women are scarce. Climate change literature 
indicates that effects of climate change including variation in temperature and rainfall, drought, floods, heat 
waves, hurricanes and typhoons have already occurred across the world; affecting countries, income groups and 
occupations differently (Chaudhary & Aryal, 2009; Intergovernmental Panel on Climate Change [IPCC], 2007). 
The negative effects of climate change are more severe in sub-Saharan Africa, including Tanzania (Cline, 2007; 
Haque, Yamamoto, & Sauerborn, 2012). Tanzania is experiencing greater weather extremes including increases 
in temperature and changes in rainfall patterns. Such effects have increased drought, floods, land resources 
degradation as well as health problems. The intensity of droughts, floods and changes to growing seasons have 
significant effects on agricultural productivity, water supply, food security and human welfare (Yanda, 
Kangalawe, & Sigalla, 2006; United Republic of Tanzania [URT], 2007). For example, the drought that occurred 
in 2005/06 and the El Niño in 1997/98, highlight the country’s vulnerability to current climatic hazards (Ehrhart 
& Twena, 2006). Moreover, Dodoma region in Tanzania is among the regions severely affected by failing 
agriculture due to climate change, as the region is situated in semi-arid areas (Food and Agricultural 
Organization [FAO], 2008). 

Although all small-holder farmers in Dodoma region will be affected by climate change, women are expected to 
be severely affected because in addition to extreme poverty and low adaptive capacity, they make up a large 

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number of individuals working in agricultural production. In addition, inequalities existing between men and 
women partly due to statutory and/or customary laws that often restrict women’s property and land rights; 
constrain women from accessing important resources for example, land and credit, undermining further their 
adaptive capacity (Osman-Elasha, 2008; Brody, Demetriades, & Esplen, 2008). The fact that women are likely to 
be more affected by climate change is also supported by climate change literature insisting studies focusing on 
gender and climate change to be conducted at community level in order to gather disaggregated data (Lambrou 
& Piana, 2006; United Nations Population Fund [UNFPA], 2009; United Nation Development Programme 
[UNDP], 2009). 

It is obvious that people in drought and flood-affected communities have evolved their own adaptation strategies 
to protect their families, assets and secure food security (Agrawal, McSweeney, & Perrin, 2008; Odjugo, 2010). 
Moreover, previous studies by various scholars, including Maddison (2006), Ishaya and Abaje (2008), Paavola 
(2008), Mutekwa (2009) and Lema and Majule (2009) have reported farmer observations of climate change and 
existing adaptation strategies for managing climate risks, for example, proper timing of agricultural operations 
and use of different crop varieties. Nevertheless, the findings are not disaggregated by gender to realize specific 
adaptation practices undertaken by men and women. Moreover, studies focusing on gender and adaptation to the 
effects of climate change have been conducted in developing countries for example, Agwu and Okhimamhe 
(2009), Ribeiro and Chaúque (2010) and Kapoor (2011) but in Tanzania studies focusing on gender and climate 
change are scarce. 

Lack of disaggregated data has meant that policy makers dealing with climate change in Tanzania including the 
National Adaptation Program of Action (NAPA) cannot come up with effective policies or adaptation options. 
According to UNFPA (2009) and UNDP (2009), for the policy that is intended to address any aspect of climate 
change to be effective, the differences between men, women, boys and girls must be taken into account during 
policy formulation. Gender blind policies may exacerbate the problems associated with climate change by 
widening inequalities between the sexes. Thus, to attain effective and successful adaptation, the needs of men 
and women should be integrated in adaptation plans and policies. This can only be achieved if information on 
how men and women are adapting to climate change effects will be gathered. This paper intends to fill part of 
this gap of information by analyzing adaptation practices to the effects of climate change by gender in Bahi and 
Kondoa Districts of Dodoma Region. The rest of the paper is structured as follows: it starts with methodology 
section which includes the study area, methods of data collection and data analysis; then the results and 
discussions section; and finally recommendations and the conclusion section. 

2. Methodology 
2.1 Study Area 
The study was conducted in three villages of Bahi District, Dodoma Region, namely Nagulobahi, Chipanga B 
and Msisi; and three villages of Kondoa District that is Puhi, Isusumya and Kurio. Administratively Bahi District 
has four divisions, 21 wards and 56 villages whereas Kondoa District has eight divisions, 35 wards and 160 
villages. Both Districts are situated in semi-arid areas and have a dry savannah type of climate, which is 
characterized by long dry season, unimodal and erratic rainfall that falls between November/December and April. 
Bahi District has an annual average rainfall of about 500 to 700 mm and annual average temperature of about 
22.6°C. Kondoa District has an annual average rainfall of about 500 to 800 mm and an annual temperature of 
about 21°C. The economies of Bahi and Kondoa Districts depend on agriculture (crops and livestock production). 
The main crops grown in Bahi District are pearl millet, sorghum, paddy and ground nuts; and for Kondoa 
District the main crops are maize, finger millet, oil seeds, pearl millet and sorghum (URT, 2003). 

2.2 Research Design and Methods of Data Collection 
The study employed a cross-sectional research design and both primary and secondary data were collected. 
Primary data involved qualitative and quantitative data. The study sample was obtained by using simple random 
sampling technique from a sampling frame of farmers who were dealing with crop production and livestock 
keeping. Moreover, key informants involved purposive selected ward and village leaders, crops and livestock 
extension workers, religious leaders, members of village government committees, head teachers and elderly 
farmers (two men and two women). Methods to collect qualitative data involved key informant interviews and 
focus group discussions; and a structured questionnaire was used to collect quantitative data. To collect 
qualitative data, a checklist of items for an in-depth interview with key informants was used to gather 
information from 78 key informants; and a focus group interview guide was used in discussion to gather 
information from 12 focus groups (one group of men and one of women from each village). To collect 
quantitative data, a structured questionnaire was administered to a sample of 360 respondents (30 men and 30 

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women from each village) to verify and quantify some of the findings from qualitative data. Secondary data were 
gathered from various reports relevant to the study and the web. 

2.3 Data Analysis 
Analysis of qualitative data was done by using content analysis in which the data were broken down into 
smallest meaningful units of information and/or themes and summarized to supplement important information 
with respect to the objectives of the study. Quantitative data analysis was based mainly on descriptive statistics 
including frequencies, means, percentages and cross-tabulations. Perception on climate change was measured by 
using indices of four climate change indicators (increased rainfall variation i.e. increased rainfall unpredictability 
and irregularity; increased temperature; strong wind; and drought) formed from Likert items (Marshall & 
Marshall, 2007). Inferential analysis involved chi-square test at p < 0.05 level of significance, employed to 
determine association between the variables; and corrected Rao-Scott chi-square (.c2) that was used to determine 
association between variables for the multiple response answers (Lavassani, Movahedi, & Kumar, 2009). 

3. Results and Discussions 
3.1 Demographic and Socio-economic Characteristics of Respondents 
3.1.1 Mean Age and Family Size 
Results in Table 1 show that the average age of respondents was 54.0 years for men and 50.0 years for women. 
The average number of years of engagement in crop production was 35.0 for men and 32.0 for women while for 
the case of livestock keeping was 19.0 years for men and 16.0 years for women. It is further shown in Table 1 
that the family size of respondents was 7.0 members for men and 6.0 for women. Family sizes in both cases were 
large and above the rural average household size of 5.1 (URT, 2002). Large family sizes are an important asset 
in working together to reduce vulnerability to the effects of climate change. This occurs when almost all of the 
household members take part in production and/or service provision to contribute to the economy of the 
household (Kayunze, 2000). Conversely, having big families is said to be one of the causes of poverty in 
Tanzania (URT, 2002). 

Table 1. Mean age, years in crops and livestock production and family size 

Respondent characteristic Mean 
Men (n=180) Women (n=180) 
Respondent age 54.4 50.0 
Years in crop production 35.0 32.0 
Years in livestock keeping 19.0 16.0 
Family size 7.0 6.0 

Source: Survey data (2011). 

3.1.2 Education Level 
Among the interviewed respondents 83.3% of men and 69.4% of women had attained primary school education 
level (Table 2). The number of women with primary school education level was half that of men, indicating that 
more men had attained primary education level compared to women. Although the Tanzania Human 
Development Report (2000) shows that the gap of education between men and women for primary level has been 
corrected, the changes may hold for the coming generation, but that gap still exists between men and women 
farmers for the earlier generation. Education is the source of knowledge which is very essential for respondents 
to perceive and interpret day to day changes experienced when interacting with climate. According to Prahalad 
(2009), education has a key role to play in promoting understanding and helping individuals and community to 
make informed choices to respond to challenges posed by climate change. 

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Table 2. Distribution of respondents by education level 

Respondent characteristic Men (n=180) Women (n=180) 
n % n % 

Education level of respondents 

Primary school level 150 83.3 125 69.4 
Adult education 5 2.8 5 2.8 
Secondary school level 1 0.6 0 0.0 
None (had not gone to school) 24 3.3 50 27.8 

Total 180 100.0 180 100.0 

Source: Survey data (2011). 

3.1.3 Land Acquisition 
The findings in Table 3 show that to acquire land 36.0% of men and 31.3% of women responses cleared the 
forest during village establishment; 29.4% of men and 33.5% of women responses inherited land from their 
parents; and 18.1% of men and 23.3% of women responses purchased the land. During village establishment in 
the 1970s, the land was abundant and farmers practiced shifting cultivation. However, as the population 
increased demand for land also increased such that, it was impossible for the farmers to expand the land freely 
within villages. To expand their farms farmers were forced to purchase land from their fellow farmers within the 
village or nearby villages. The mean hectares of land owned by respondents were 3.8 for men and 1.9 for women, 
indicating that the land size of women was only half of that owned by men. Having small farms was among the 
major obstacles that constrained respondents from planting on different dates; livestock keepers to spare a plot 
for livestock to graze during dry season; harvesting enough food; and was one of the causes of increased 
vulnerability for women to climate change. The same observation was also reported by Deressa, Hassan, Alemu, 
Yesuf and Ringler (2008). 

Table 3. Distribution of respondents by land acquisition 

Respondent characteristic Men (n=180) Women (n=180) 
Count % of responses Count % of responses 

Land acquisition 

Cleared the forest/bush 131 36.0 100 31.3 
Inherited 107 29.4 107 33.5 
Purchased 66 18.1 42 23.3 
Others 60 16.5 70 22.0 

Total 364 100.0 319 100.0 

NB: Multiple responses. 
Source: Survey data (2011). 

3.1.4 Production Activities Undertaken by Respondents 
It is seen in Table 4 that the main production activities undertaken by respondents were crop and livestock 
production (78.9% of men and 50.0% of women). The findings further revealed that many men were 
agro-pastoralists compared to women, half of whom were crop producers; production activities that need enough 
rainfall in a changing climate. 

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Table 4. Production activities undertaken by respondents 

Production activities Men (n=180) Women (n=180) 
n % n % 

The main production activities of men and women 

Agro-pastoralists 142 78.9 90 50.0 
Crop production 38 21.1 90 50.0 

Total 180 100.0 180 100.0 

Source: Survey data (2011). 

3.1.5 Ownership, access and control of household assets 
Assets owned by households were hand hoes, houses, land, local chickens, goats, cattle and ox-ploughs (Table 5). 
Spouses had access to household assets but men were the owners and they controlled all household assets; except 
for 32.8% of women, the majority of whom were widows (16.7%), separated (5.6%), divorced (4.4%) and single 
(3.3%). Limited control of the household assets is one of the causes of increased vulnerability for women to 
climate change (Brody et al., 2008; UNFPA, 2009). 

Table 5. Access, Ownership and Control of Household Assets 

Access and control of assets Men (n=180) Women (n=180) 
n % n % 
Assets owned by respondent* 

Hand hoes 180 17.6 180 21.8 
House 180 17.6 176 21.3 
Land 179 17.5 164 19.8 
Local chicken 134 13.0 119 14.4 
Goats 104 10.2 59 7.1 
Cattle 75 7.3 34 4.1 
Ox-ploughs 68 6.6 33 4.0 
Others 104 10.2 62 7.5 

Total 1024 100.0 827 100.0 
Respondent’s level of control of household assets 

Control all household assets 180 100.0 59 32.8 
Control hand hoe, axe and machetes 0 0.0 40 22.2 
All assets are controlled by my husband 0 0.0 81 45.0 

Total 180 100.0 180 100.0 

NB: *Multiple responses. 
Source: Survey data (2011). 

3.2 Perception of Climate Change by Sex 
Using the indices of Likert items based on the four climate change indicators (increased rainfall variation, 
temperature, strong wind and drought) it was revealed that 87.2% of men and 76.7% of women perceived the 
change in rainfall; 98.3% of men and 97.2% of women perceived the change in temperature; 97.2% of men and 
95.6% of women perceived the change in strong wind; and all interviewed men and 98.9% of women perceived 
the change in drought. The results indicate that majority of men and women perceived changes in climate (Table 
6). The chi-square test showed significant association between perception of respondents on the change in 
rainfall and sex (.2 =11.588; p 
= 
0.05); the change in strong wind and village of respondent (.2 =42.792; p = 0.01); 

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the change in drought and marital status (.2 =73.536; p 
= 
0.001) and the change in drought and ethnic groups of 
respondents (.2 =193.098; p 
= 
0.001). The findings show that perception of climate change in the study area 
varied by sex, village of respondent, marital status and ethnic groups of respondents. 

Table 6. Perception of respondents on climate change by sex 

Scale for perception Men (n=180) Women (n=180) 
n % n % 
Perception on increased rainfall variation 
Perceiving 157 87.2 138 76.7 
Not perceiving 23 12.8 42 23.3 
Perception on increased temperature 
Perceiving 177 98.3 175 97.2 
Not perceiving 3 1.7 5 2.8 
Perception on increased strong wind 
Perceiving 175 97.2 172 95.6 
Not perceiving 5 2.8 8 4.4 
Perception on increased drought 
Perceiving 180 100.0 178 98.9 
Not perceiving 0 0.0 2 1.1 

Source: Survey data (2011). 

During focus group discussions and key informant interviews it was also revealed that bad years had increased 
and good years decreased in Bahi District since 1984 and 1990 in Kondoa District. The findings from the field 
related to the trend of anomalies of meteorological data from the Tanzania Meteorological Agency Dar es salaam 
for 1970 to 2010 period, which showed a significantly decrease in rainfall amount for the Bahi District from 
1980/81 (that is R2 = 0.205, p 
= 
0.05), a significantly increase in mean minimum and maximum temperatures 
(that is R2 =0.404, p 
= 
0.001 and R2 = 0.125, p 
= 
0.05 respectively); and mean wind speed (that is R2 = 0.276, p 
= 
0.01) for Dodoma Region. However, for Kondoa District rainfall amount had decreased insignificantly from 
1984/85 (that is R2 = 0.022, p = 0.4628), indicating that the area might be more affected by variations in rainfall 
onset and rainfall distribution than the change in rainfall amount. The findings also agreed with climate change 
literature and the findings of other scientists that showed/predicted increased temperature, drought (especially in 
semi-arid areas) and decreased precipitation in Tanzania and other areas of Africa (World Wide Fund for Nature 
[WWF], 2006; United Nations Framework for Conversion on Climate Change [UNFCCC], 2007; IPCC, 2007; 
Ishaya & Abaje, 2008; Mongi, Majule, & Lyimo, 2010; Nature, 2011; Haque et al., 2012). 

3.3 Perceived Effects of Climate Change in the Study Area 
In the study area climate change had damaged crops due to drought; reduced pastures, water and firewood; 
caused livestock deaths; reduced non-farm production activities; and was the main cause of persistent low yield. 
The consequences of perceived physical effects of climate change were increased food shortage/hunger and body 
weakness due to low food intake; persistent low income; waste of resources including money, labour, time and 
productive land; farmers being subjected to bad food debts; increased family conflict; out-migration; decreased 
sanitation and hygiene; waste of productive time in less productive activities; and reduced status. Similar 
findings were reported by various studies including Nelson and Stathers (2009), Mengistu (2011), Jotoafrica 
(2011), Swai, Mbwambo and Magayane (2012). 

3.4 Practices Undertaken to Adapt to or Reduce Effects of Climate Change 
3.4.1 Practices Undertaken to Adapt to or Reduce Effects of Food Shortage or Hunger by Sex 
Findings in Table 7 show that in short term women were leading in reducing number of meals per day including 
quantity and quality of food (meal) for example, taking porridge instead of stiff porridge (ugali); feeding on wild 
fruits; and starving for a day or two. Women were also in the front line to embark on casual labour; non-farm 

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production activities including petty trade and local brew; borrow food from traditional credit; and were assisted 
by relatives and friends. Conversely, men were in the front line to sell livestock, local chickens and other 
belongings including bicycles and radio; and to emigrate to various villages including Mpwayungu, Matui and 
Endasaki and also to Kondoa, Dodoma and Dar es Salaam towns to sell labour or exchange labour and various 
commodities for food (Swai et al., 2012). Emigration was opted when opportunities to get money or food were 
fading in the village. Men emigrated in groups and after obtaining food one of the group members brought food 
back home. 

Table 7. Adaptation practices undertaken to adapt to or reduce effects of climate change 

Adaptation practices Men (n=180) Women (n=180) 
Count % of Count % of 
responses responses 
Practices undertaken to adapt to or reduce effects of food 
shortage or hunger 
Reduce number of meals, wild fruits, starve 165 13 172 11.3 
Sell labour, assisted by relatives/friends 155 12.2 176 11.6 
Sell livestock and/or local chicken 152 12 93 6.1 
Engage in non-farm production activities 128 10.1 149 9.8 
Plant hunger buffering crops e.g. sweet potatoes 120 9.5 145 9.6 
Emigrated 108 8.5 33 2.2 
Borrowing food from traditional food credit 98 7.7 129 8.5 
Practices undertaken to adapt to or reduce effects of 
water and firewood shortages 
Drill deep water wells 143 11.3 2 0.1 
Fetch water/firewood from far sources; control/boil water 93 7.3 180 11.9 
Sell food crops to buy water 40 3.2 65 4.3 
Drill shallow water wells for domestic use 3 0.2 165 10.9 
Use cobs, stalks, bricks stoves 2 0.2 123 8.1 
Others 60 4.7 86 5.7 
Total 1267 100 1518 100 

NB: Multiple responses. 
Source: Survey data (2011). 

While men were away women, the majority (81.7%) of who remained within the village, continued to search for 
casual labour and others undertake petty trade to save the family from hunger. Women sacrificed more of their 
time, energy and whatever they had, including their food share for the family members. Although it was their 
responsibility to keep enough seeds for the next season, women allowed family members to consume seeds 
during severe food shortage/hunger. To avoid wasting food they used rosella flowers, sugar and bicarbonate to 
make local brew instead of using cereals. 

3.4.2 Practices Undertaken to Adapt to or Reduce Effects of Water and Firewood Shortages by Sex 
It is also depicted in Table 7 that to adapt to or reduce effects of water shortage, women drilled shallow water 
wells which were mainly for domestic purpose; and men drilled deep water wells. When water shortage 
increased, especially after August, women were forced to awake early in the morning to fetch water from far 
water sources either within their village or at nearby villages. In the 1990s, men had joined women in fetching 
water and using bicycles or wheel barrows they could fetch up to six buckets of water per trip. Equally, 
respondents sold food crop products to buy water, especially in Isusumya village where the price per bucket of 
water ranged between TZS 500.00 and 700.00. Moreover, women were leading in boiling water especially 

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during rain season to reduce contamination and water borne infectious diseases. They also controlled water use 

by reducing frequencies of bathing and washing, measures that reduced frequencies of fetching water. 
To adapt to or reduce effects of firewood shortage, women used maize cobs and stalks of sorghum, pearl millet 
and maize for cooking; and in Puhi village potters were using energy serving stoves made of bricks which 
enabled them to use little quantities of firewood during pot processing (Table 7). Moreover, men had joined 
women in collecting firewood where they hired power tillers, ox-carts or tractors and went far in the forest to fell 
trees in order to collect firewood in greater quantities. For example, respondents from Nagulobahi village were 
collecting firewood from Uhelela village, a distance of seven kilometers. The firewood was then dried at home 
and could be used for more than three months. During week-ends and after classes women were accompanied by 
boys rarely and girls often to collect water and firewood. Agwu and Okhimamhe (2009) indicate the same 
findings. Firewood and water collection were the role of women in the 1970s, but it is shown in Table 7 that men 
were also collecting water and firewood in the 1990s; probably due to the long distance that women travelled 
and time spent in those activities in the 1990s. 

Men engaging in collecting water and firewood show that their roles are changing, indicating further that the 
cultural division of labour demarcating gender constructed roles can no longer hold as climate change increases; 
as not only the role of men that had changed but, women were also engaged in emigration regardless of their 
marital status in the 1990s. The same observation was reported in Jotoafrika (2011). Measures undertaken by 
women to control water use, together with the assistance they were getting from men reduced frequencies of 
women to fetch water and firewood and enabled them to save time that could otherwise be wasted. It is evident 
from the findings in Table 7 that women were leading in most of practices to adapt to or reduce effects of food 
shortage/hunger, water and firewood shortages. The corrected Rao-Scott chi-square (.c2) test showed significant 
association between the adaptation practices undertaken by respondents and sex (.c2= 1219.799; p = 0.001) 
revealing that undertaken adaptation practices varied by sex. 

3.3.3 Practices Undertaken to Adapt to or Reduce Effects of Climate Change on Production Activities by Sex 
Results in Table 8 show that to adapt to or reduce effects of climate change on livestock, men were in the front 
line to feed livestock tree leaves for example, miyombo and sausage tree (mwegea) every season; and banana 
stems especially in Puhi village. As pasture and water decreased herders moved livestock to areas that were less 
affected by drought. For example, herders from Isusumya village moved livestock to Zajirwa and Izava villages, 
a journey which took 20 hours. This was a long journey that herders could not travel every day. Instead they 
travelled after every three days forcing livestock to go without water for three days, as one of the adaptation 
measures. In addition, respondents spared a plot during cropping season for livestock to graze on during dry 
season; preserved grasses and crop residues for livestock to feed during pasture shortages; sold livestock to 
reduce them to a manageable number; and loaned livestock to relatives or friends (livestock songoleda in Gogo) 
(Swai et al., 2012; Notenbaert, Mude, Steeg & Kinyangi, 2010). 

The practice of loaning livestock to relatives or friends was undertaken as a risk aversion practice and a measure 
to improve livestock management for the lender; and a measure to improve life standard for the borrowers. For 
example, a livestock keeper from Nagulobahi village could lend a number of cattle to relatives or friends from 
Msisi village such that when a fatal livestock disease or rustling occurred in Nagulobahi a number of his cattle at 
Msisi could be safe. Conversely, individuals keeping livestock of the rich benefited from milk, manure and 
draught power; these advantages contributed to their effort to fight against climate change. To control diseases 
against livestock, men used traditional medicine for example, Azadractaindica leaves (majaniyamwarobaini) to 
treat livestock against ticks. In addition, they used their experience to identify livestock diseases or parasites and 
buy agro-chemicals from primary markets at a ward centre or from Kondoa and Dodoma towns, to treat sick 
animals. For the villages that had Livestock Extension Workers, for example Chipanga B, respondents consulted 
them for treatment when livestock were sick. 

To adapt to or reduce effects of climate change on crops, women were in the front line to clear the land early in 
order to match with rainfall onset and reduce resources loss. Moreover, women selected and kept enough seeds 
for the next season, every season (Table 8). Preservation of seeds was a traditional practice that women were not 
required to continue observing because most of crops that were grown in the 1970s including long maturing 
sorghum, groundnuts and maize varieties were replaced by improved short maturing varieties. However, women 
continued to select and keep seeds probably because they could not afford buying improved seeds every season. 
Instead, women bought the amount of improved seed they could afford (for instance, one kilogram) and 
multiplied the seeds in the first season and then continued selecting and keeping the seeds for even five 

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consecutive seasons. In addition, women used traditional substances including ashes of maize cobs and 
sunflower remains; and Azadractaindica leaves to treat and preserve crops including seeds every season. 

Table 8. Adaptation practices undertaken to adapt or reduce climate change 

Adaptation practices Men (n=180) Women (n=180) 
Count % of Count % of 

responses responses 

Practices undertaken to adapt or reduce effects of climatechange on production activities 
Feed livestock tree leaves (e.g. miyombo)/banana stems 111 5.5 39 2.2 
Livestock go without water for three days 92 4.5 58 3.2 
Move livestock to other places/divide to friends/reduce/ fed 
crop residues 
78 3.8 18 1.0 
Use traditional herbs/experience/consult livestock officer 69 3.4 37 2.0 
Use of improved seeds/drought tolerant/short term 176 8.6 168 9.3 
Use of deep cultivation/early planting 176 8.6 159 8.8 
Use of manure 174 8.5 115 6.4 
Ask rainfall from God 173 8.5 174 9.6 
Select and keep enough seeds /replant 166 8.2 180 10.0 
Change of crop varieties/plant different dates 154 7.6 83 4.6 
Use of traditional medicine/herbs 116 5.7 120 6.6 
Early land clearing 80 3.9 180 10.0 
Practices undertaken to adapt or reduce effects of climatechange on environment 
Plant trees (shade/firewood) 176 8.6 167 9.2 
Contours/plant reeds (matete) 110 5.4 94 5.2 
Use of ridge farming 113 5.6 132 7.3 
Others 72 3.5 83 4.6 
Total 2036 100 1807 100 

NB: Multiple responses. 
Source: Survey data (2011). 

Likewise, men were leading in using improved seeds of short maturity and drought tolerant crop varieties; 
undertaking deep cultivation during land preparation and planting early; using manure; and were changing crop 
varieties and planting crops in different dates (staggered planting). Besides, both men and women asked rainfall 
from God. Other adaptation practices implemented by 3.5% of men and 4.6% of women responses (Table 8) 
were intercropping; changing from food crops to cash crops; and using deep cultivation after crop emergence 
during first weeding, a practice that was mostly undertaken often by women. That is, instead of using deep 
cultivation during land preparation, women planted in the dust in order to time/match with rainfall onset and then 
used deep cultivation after crop emergence during first weeding to enhance water percolation. Possession of 
livestock and ability of men to hire tractors, power tillers or ox-carts enabled more men to secure and ferry 
manure to their farms compared to women. Further analysis revealed that the farms of some of men and women 
were located more than three kilometer away from home (64.0% of men and 63.3% of women responses). It was 
not easy then for women to carry manure for such a long distance even if they were given manure by livestock 
keepers. Most of adaptation practices to the effects of climate change on livestock were also done by boys and 
girls after classes and during week-ends. The same adaptation practices were reported by Nhemachena and 
Hassan (2007), Ribeiro and Chaúque (2010) and Acquah and Onumah (2011). 

3.4.4 Practices Undertaken to Adapt to or Reduce Effects of Climate Change on Environment by Sex 
Other important adaptation practices undertaken in the study area were tree planting and management; contour 
making and reeds planting; and ridge farming (Table 8). Those practices enabled respondents to adapt to or 
reduce effects of floods, strong wind and whirlwind on the environment. Respondents also planted trees around 

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home stead for shade, established plots of trees for firewood and other purposes; and were required to leave at 
least 10 trees in the field during bush clearing or plant at least 10 trees in the field to reduce wind speed (wind 
breaker). Tree planting and management were important practices for environmental conservation. The practices 
reduced possibility of wasting resources including time wasted by women to collect firewood. Moreover, 
contours, reeds planting and ridge farming were used to reduce water run-off and control erosion, especially in 
Puhi and Isusumya villages. Ridges were also used in the 1990s to trap water for crops in Kurio village because 
of rainfall shortage. Farmers made very big ridges which kept water in between for considerable time for crops. 

It is obvious from Table 8 that men were leading in most of adaptation practices to the effects of climate change 
on livestock and crops production and on environment compared to women. The findings reveal that men and 
women responded differently to the effects of climate change on production activities and environment. The 
corrected Rao-Scott chi-square (.c2) test showed significant association between the adaptation practices to the 
effects of climate change on production activities and on environment and sex (.c2= 461.323; p = 0.001), 
indicating that undertaken adaptation practices varied by sex of respondent. The difference could probably be 
explained by the variation in roles; unequal access to assets and benefits accrued from production; unequal 
control of household assets; and other opportunities. For example, it was revealed during focus group discussions 
that other men trained oxen of the rich farmers in order to use the animals for land preparation; and a number of 
men assisted oxen owners during land preparation in order to secure oxen service. These were among the 
opportunities that women could not access. Adaptation practices to the effects of climate change on production 
activities and environment were important for respondents to increase yield, number of livestock including an 
increase in milk production; reduce food shortage or hunger and an increase in income. If the income of 
respondents is increased, their status and ability to meet household development targets will subsequently 
improve. 

3.5 Elements Influencing Adaptation Practices 
Findings in Table 9 reveal that the effort of women to adapt to or reduce effects of climate change was mainly 
obstructed by various elements including inadequate capital and limited access to credit, use of poor production 
tools and having small farms. Conversely, the effort of men to adapt to or reduce effects of climate change was 
mainly obstructed by inadequate input and veterinary services including cattle dip facility in the study area; 
inadequate manpower, sickness and old age; inadequate formal markets; and inadequate knowledge of improved 
crops and livestock production (Nhemachena & Hassan, 2007; Deressa et al., 2008). 

Table 9. Elements influencing adaptation practices 

Description Men (n=180) Women (n=180) 
n% n % 

Elements impeding adaptation 
Inadequate capital including credit 36 20.0 47 26.1 
Inadequate input and veterinary services 35 19.4 28 15.6 
Inadequate production tools 32 17.8 37 20.6 
Inadequate manpower, sickness and old age 24 13.3 13 7.2 
Inadequate formal market 20 11.1 8 4.4 
Inadequate improved production knowledge 19 10.6 16 8.9 
Small farms 14 7.8 31 17.2 
Total 180 100.0 180 100.0 
Elements facilitating adaptation 
Improved transport, communication and business 53 29.4 40 22.2 
Patience and ability to work hard 46 25.6 47 26.1 
Observation of government bye-laws and directives 40 22.2 28 15.6 
Mutual support spirit and ability to learn from 
others 24 13.3 43 23.9 
Involvement in non-farm production activities 17 9.4 22 12.2 
Total 180 100.0 180 100.0 
Source: Survey data (2011). 

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Besides, practices of women to adapt or reduce effects of climate change were facilitated by the ability of 
women to work together and to learn from other farmers; and their ability to be involved in non-farm production 
activities. For the men, improved transport, communication and increased business; together with the ability to 
observe government by-laws and directives facilitated their adaptation practices. Moreover, both men and 
women were patient and hard working. 

In the study area, men and women had ability to work together under mutual support where one household 
prepared food and invited friends or neighbours (kualikana in Swahili or kularika in Kirangi) to assist them 
during land tillage, weeding or harvesting operations. This practice reduced the problem of inadequate 
manpower and shortage of cash for paying hired labour. In addition, in the 1990s in all surveyed villages, 
transport, transport means including buses, motorcycles and bicycles; and communication had improved in 
comparison to the 1970s. These enabled business men from Kondoa or Dodoma towns to transport various food 
items to the study area during food shortage; and also the situation facilitated exchange of various commodities 
either for money or food. For example, in Nagulobahi village respondents exchanged paddy for sorghum or pearl 
millet and businessmen came straight to the village to buy paddy. That action reduced cost of transporting food 
items to the ward centre or Dodoma Town. Likewise, villages had established various by-laws and regulations 
that farmers were required to observe. For example, every farmer was required to use farm yard manure; and 
farmers were not allowed to cut trees even if they were the owners of those particular trees, without seeking 
permission from the village government. 

4. Recommendations 
The study recommends systematic collection of in-depth information on climate change and gender at the 
community level in other areas of Dodoma Region, Tanzania and the Least Developed Countries (LDCs), in 
order to obtain enough disaggregated information. This will avail more and diverse location specific climate 
change indicators from the study areas and enable the policy makers on climate change to design and implement 
appropriate interventions to manage climate change problems. More studies on climate change and various 
locations/villages; ethnic groups and married and single individuals are important in order to generate more 
generalized conclusions. The study also suggests that, adaptation practices undertaken by respondents can be 
learned through their roles in the household and/or community. Moreover, the study calls for appropriate 
stakeholders including the Local Government Authorities (LGAs); Agriculture and Livestock sectors; the 
Central Government of Tanzania, Non-governmental Organizations (NGOs) and other development practitioners 
to provide farmers with necessary inputs and credit services in order to improve their adaptive capacity. 

5. Conclusion 
The majority of men and women perceived climate change (increased rainfall variation, temperature, strong 
wind and drought) and managed to identify adaptation practices undertaken to manage climate change effects; 
and elements impeding/facilitating adaptation practices. The information obtained can be used to 
improve/formulate appropriate adaptation practices to manage climate change problems in the Agriculture and 
Livestock sectors. However, respondents perceived and adapted differently to the effects of climate change 
depending on sex, location/village, marital status and ethnic groups. This implies that location/village, marital 
status and ethnic groups are also important variables in climate change studies, especially when characteristic of 
the effects of climate change of being location specific is taken into account. Adaptation practices undertaken by 
respondents were biased towards their roles. Women were more devoted to the measures of adaptation that 
enabled them to adapt to or reduce effects of climate change during hunger/food, water and firewood shortages 
and men were more devoted to the adaptation measures that enabled them to adapt to or reduce effects of climate 
change on crops, livestock and environment. This implies that adaptation practices undertaken by respondents to 
adapt to or reduce effects of climate change can be learned through their roles. However, the effort of 
respondents to adapt to or reduce effects of climate change was obstructed by various elements including 
inadequate production tools, inputs, capital, knowledge on improved production, formal markets, veterinary and 
credit services. If the identified obstacles to production will be corrected the adaptive capacity of respondents 
will improved and both men and women will be in a better position to manage climate change problems. 

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