Food Sci Nutr. 2019;00:1–9.	 �   |  1www.foodscience-nutrition.com

1  | INTRODUC TION

In sub‐Saharan Africa, informal markets account for more than 
80% of the total food selling, which play a role in both food se-
curity and food safety (Roesel & Grace, 2014). Foodborne dis-
eases, caused by viruses, bacteria, and protozoa from unsafe food, 
are a global problem with an especially high burden in Africa. 

Children under 5  years of age are especially vulnerable (World 
Health Organization [WHO], 2015). Where food security is a con-
cern, food safety is even more important. Malawi is one of the 
countries in southern Africa where malnutrition among children 
under the age of 5 is high, with 37% and 3% of children classified 
as having chronic or acute undernutrition, respectively (National 
Statistical Office [Malawi] and ICF, 2017). Although poor water 

 

Received: 28 March 2019  |  Revised: 26 June 2019  |  Accepted: 1 July 2019
DOI: 10.1002/fsn3.1155  

O R I G I N A L  R E S E A R C H

Food safety policies and practices in public spaces: The urban 
water, sanitation, and hygiene environment for fresh fish sold 
from individual vendors in Mzuzu, Malawi

Jazimoni Lazaro1 |   Fanuel Kapute1 |   Rochelle H. Holm2

This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, 
provided the original work is properly cited.
© 2019 The Authors. Food Science & Nutrition published by Wiley Periodicals, Inc.

1Department of Fisheries & Aquatic 
Science, Mzuzu University, Mzuzu 2, Malawi
2Centre of Excellence in Water and 
Sanitation, Mzuzu University, Mzuzu 2, 
Malawi

Correspondence
Rochelle H. Holm, Centre of Excellence in 
Water and Sanitation, Mzuzu University, P/
Bag 201, Mzuzu 2, Malawi.
Email: rochelle@rochelleholm.com

Abstract
In sub‐Saharan Africa, informal markets account for more than 80% of the total food 
selling. Fish is a major protein source for households in Malawi and is commonly 
purchased from individual vendors. The aim of this study was to review national acts 
and policies and local regulations focused on fresh fish sold at open‐air markets or by 
mobile vendors and to further examine the water, sanitation, and hygiene environ-
ment that may impact food safety in Mzuzu City, Malawi. The study used interviews, 
an observational checklist, and sampling of water and fish skin. In general, there was 
limited oversight of food safety where fresh fish are sold by vendors, and food safety 
guidance was inadequate. There was access to water in three of the four markets, 
but only two markets had safe water (0 cfu/100 ml for Escherichia coli). All vendors 
stored water in a container for use throughout the day to sprinkle over the fish with 
their bare hands to keep them from drying out. The mean washing water E. coli level 
was 700 cfu/100 ml. All fish skin samples (25/25) were positive for the presence of 
Salmonella spp., and most had high levels of E. coli. Sanitation facilities were avail-
able for vendors and customers in two of the four markets, but the use was limited. 
This research identified three key opportunities: (a) Regulatory framework including 
informal markets and mobile vendors; (b) Safe water, clean and functional toilets, and 
handwashing stations with soap at every market; and (c) Foodborne disease educa-
tion for vendors.

K E Y W O R D S

developing countries, fish, food safety, Malawi, sanitation, urban

http://www.foodscience-nutrition.com
mailto:
https://orcid.org/0000-0001-8849-1390
http://creativecommons.org/licenses/by/4.0/
mailto:rochelle@rochelleholm.com


2  |     LAZARO et al.

supply, sanitation, and hygiene conditions have been linked to a 
high prevalence of undernutrition (Cumming & Cairncross, 2016; 
Dodos, Mattern, Lapegue, Altmann, & Aissa, 2017), the focus of 
previous studies has been on household access rather than where 
food is sold from urban public spaces. Morse, Masuku, Rippon, 
and Kubwalo (2018) noted that in Malawi “there is a significant 
threat to public health and {local food} market access due to unco-
ordinated, outdated or incomplete regulatory framework, poorly 
defined mandates, limited infrastructure, lack of equipment and 
skilled personnel, inadequate resources, and limited awareness 
and ability to comply with standards.”

Riley, Chilanga, Zuze, and Joynt (2018) noted that in Mzuzu, 
Malawi, fish is a main source of  dietary protein, and fish was 
rated as more affordable by households than beef, pork, chicken, 
or other meat. Fresh fish is regularly consumed by 47% of house-
holds and is purchased at either area markets or from street sell-
ers (Riley et al., 2018). Fish do not naturally harbor Escherichia coli 
(E. coli) or Salmonella spp.  (Heinitz, Ruble, Wagner, & Tatini, 2000; 
Hansen, Clark, Ishii, Sadowsky, & Hicks, 2008; Food and Agriculture 
Organization of the United Nations [FAO], 2012). However, contam-
ination can occur along the supply chain, as fish are handled by sev-
eral intermediaries from the time of capture to sale at local markets 
(Samikwa, Kapute, Tembo, Phiri, & Holm, 2019). Heinitz et al. (2000) 
found a 12.2% incidence of Salmonella spp. in fresh fish imported 
into the United States.

The aim of this study was to review national acts and policies and 
local regulations focused on fresh fish sold at open‐air markets or by 
mobile vendors and perform a detailed case study to further exam-
ine the water, sanitation, and hygiene infrastructure, vendor knowl-
edge and behavior, and (as applicable) the presence of E. coli and 
Salmonella spp. that may impact food safety in Mzuzu City, Malawi.

2  | MATERIAL S AND METHODS

2.1 | Study area

The study was conducted in Mzuzu City, Malawi, which covers 
146 square kilometers and has a population of 220,000 according 
to the 2018 census (Malawi Government, 2018). There are 15 open‐
air markets in the city, which provide products for daily consumer 
demands, including local fruits, vegetables, grains, and protein 
(Figure 1). For 76% of households, a food market can be reached in 
less than a 30‐min walk (Mzuzu City Council, 2014).

2.2 | Data collection methods

Study data were collected using an observational infrastructure 
checklist, interviews, sampling of water, and sampling of fresh fish 
skin from October 2018 to February 2019.

Following a review of national acts and policies, and local reg-
ulations, four agencies found to be present in Mzuzu and able to 
provide monitoring or evaluation were interviewed using a struc-
tured interview in English. They were asked what they knew of the 
regulatory framework covering water, sanitation, hygiene, and food 
safety supporting fresh fish sold at markets or by mobile vendors. In 
addition, they were asked the frequency and type of monitoring and 
evaluation performed.

Five groups of individual fresh fish vendors were included in our 
study: four groups operating at open‐air markets (Area 1B Market, 
Chibavi Market, Mzuzu Central Market, and Zolozolo Market) target-
ing a range of smaller and larger permanent markets that sell fresh 
fish and a fifth group of mobile vendors that sell fresh fish in a basket 
on the back of a bicycle on roads adjacent to the Area 1B Market and 
Zolozolo Market. Five vendors that sold fresh Engraulicypris sardella 
(usipa) or Opsaridium microcephalum (sanjika) were purposively se-
lected from each group (n = 25). For vendors at the permanent open‐
air markets (n  =  20), a structured interview was conducted in the 
local language, Chichewa, which covered vendor behavior impacting 
food safety, including use of and satisfaction with sanitation facili-
ties at their place of work and their knowledge of food safety. Mobile 
vendors were not interviewed in our study because they wanted to 
keep moving for sales.

At each permanent open‐air market (n = 4), the use of the nearest 
sanitation facility (including access for both vendors and customers) 
was observed, and the same researcher (the first author) counted 
the number of users who went in/out of the sanitation facility over 
a period of 1  hr between the hours of 8  a.m. and 4  p.m. for five 
consecutive days. Immediately following this, the number of general 
market users (including vendors and customers) was counted over 
a 1‐hr period. An observational checklist that covered water access, 
handwashing station with soap, and sanitation facility infrastructure 
was completed at each market (n = 4).

When a water source was available at the market, a 100 ml water 
sample was collected (n = 3; Mzuzu Central Market, Chibavi Market, 
and Zolozolo Market). Two fresh fish were purchased, and a 100 ml 
sample of water used for washing the fresh fish was also collected 
from the 25 vendors. Water samples were collected in Whirl‐Pak® 

F I G U R E  1   Fresh fish being sold at an 
open‐air market, Mzuzu, Malawi



     |  3LAZARO et al.

bags containing sodium thiosulfate (Nasco). Fish samples were col-
lected in Whirl‐Pak® plastic bags. Samples were transported and an-
alyzed at an academic laboratory at the department of Fisheries and 
Aquatic Science, Mzuzu University.

Escherichia coli and Salmonella spp. were selected as nonindig-
enous bacteria of public health significance introduced in fish and 
fishery products through environmental contamination by domestic 
and/or industrial waste (FAO, 2012). The E.  coli analysis was per-
formed using a field‐based plate method for contamination moni-
toring (Thomas, Andrés, Borja‐Vega, & Sturzenegger, 2018). The 
Salmonella spp. analysis methodology was based on Heinitz et al. 
(2000), but the product sample was reduced to a 1.5 g portion and 
the procedure adapted for a field‐based method based on prestudy 
trials in our laboratory.

Water samples (n = 28; 25 samples of water used by individual 
vendors for washing the fresh fish onsite and three market water 
source samples) and fresh fish skin samples (n = 25) were analyzed 
for E. coli using 3M™ Petrifilm™ E. coli/Coliform Count Plates (3M™). 
For market water source samples (n = 3), a 100 ml volume was sam-
pled. Fresh fish samples (n = 25) were prepared by laterally scraping 
the skin surface (approximately 1.5  g) using an aseptic blade and 
adding the skin to 10  ml previously boiled and cooled water in a 
Whirl‐Pak® plastic bag. The mixture was hand shaken for 2 min, and 
then, 1 ml of this water was analyzed for E. coli.

All samples for E. coli analysis were incubated within 6 hr of sam-
ple collection. Samples were incubated at 35°C for 24 hr, and the re-
sults are presented as colony forming units per 100 ml (cfu/100 ml) 
for water and cfu/g for fish skin. An equipment blank, as a negative 
control, of boiled and cooled water was analyzed each day (n = 5), 
and a value of zero for E. coli was found for each. No positive controls 
for E. coli or total coliforms were conducted.

Additionally, for fresh fish skin samples (n = 25), Salmonella spp. was 
analyzed using the 3M™ Petrifilm™ Salmonella Express system (3M™). 
A second fish sample was prepared by combining approximately 1.5 g 
of skin and 10 ml of prepared 3M™ Salmonella Enrichment Base and 
3M™ Salmonella Enrichment Supplement in a Whirl‐Pak® plastic bag. 
The mixture was incubated at 41.5°C for 24 hr. Then, a cotton swab 
was dipped in the sample, and it was spread on a 3M™ Petrifilm™ 
Salmonella Express Plate. Samples were incubated a second time 
at 41.5°C for 24 hr, and presumptive positives were identified. Five 
equipment blanks using boiled and cooled water, but the same meth-
odology, were analyzed as a negative control, and all were found to be 
negative for Salmonella spp. No positive controls for Salmonella spp. 
were conducted.

2.3 | Data analysis

Laboratory samples were analyzed in duplicate, and the mean re-
sults were recorded. Statistical analyses were conducted using the 
R Project 3.5.1 statistical package (Vienna, Austria). Water source 
results for E. coli were compared to national and WHO guidelines 
for drinking water (Malawi Bureau of Standards [MBS], 2013; WHO, 

2017). If a p value was less than a .05 significance level, we con-
cluded there was a significant difference.

2.4 | Ethics

This study and its informed consent procedures were approved 
by the Republic of Malawi National Commission for Science and 
Technology (Protocol Number P.10/18/327). Informed, verbal con-
sent was obtained from the study participants.

3  | RESULTS

3.1 | National acts, policies, and local regulations

The key national acts, policies, and local regulations covering 
water, sanitation, and hygiene infrastructure standards, and food 
safety evaluation criteria for fresh fish being sold at urban open‐
air markets or by mobile vendors are presented in Table 1. While 
some of these mention markets, none address mobile vendors. 
There were no specific criteria in national acts or policies regard-
ing standards for water, sanitation, and hygiene infrastructure, or 
monitoring and evaluation guidelines in public spaces where fresh 
fish are being sold. There were, however, some local regulations 
(Mzuzu City Assembly, 2001), but with limited monitoring and 
evaluation criteria.

The oversight of national acts and policies and local regula-
tions for water, sanitation, hygiene, and food safety covering fresh 
fish sellers operating in Mzuzu City falls under four agencies: (a) 
Ministry of Health; (b) Department of Fisheries under the Ministry 
of Agriculture, Irrigation, and Water Development; (c) MBS; and (d) 
Mzuzu City Council. We did not consider issues related to labor con-
ditions in our study.

The Ministry of Health respondent described the difficulty in 
providing oversight of fresh fish sellers as follows (female inter-
viewee, 11 February 2019):

There's currently no specific food safety policy gov-
erning the sale of fresh fish by mobile vendors. But 
in general terms, the Public Health Act gives powers 
to health inspectors to inspect food and food prem-
ises to ensure that food is wholesome and safe for 
human consumption. Monitoring of this has worked 
in formal food premises but has been haphazard in the 
informal food sector as we do not have policies that 
specifically address informal food markets. Existing 
WASH {water, sanitation, and hygiene} policies do not 
address this issue either. Monitoring in this context is 
mainly visual.

The Department of Fisheries under the Ministry of Agriculture, 
Irrigation, and Water Development commented as follows on the gaps 
in oversight checkpoints (female interviewee, 5 February 2019):



4  |     LAZARO et al.

As {the} Mzuzu Regional Office, our mandate is to 
issue sanitary certificates to traders who have bought 
fish products from markets within the northern re-
gion. Inspection is visual only specifically; we look 
for any damages due to fungal or handling damage; 
sometimes {using the} olfactory sense as a measure of 
the quality of the fish. Laboratory analysis is not pos-
sible because of {the} lack of laboratory equipment. 
The sanitary certificates are issued to those traders 
exporting the fish outside Malawi. The office of the 
District Fisheries is mandated to inspect {the} quality 
of fish that have been landed on the beach only.

The Department of Fisheries has a regional office in Mzuzu, but 
there is no daily presence of staff to monitor the fresh fish markets 
within the city.

The MBS responded (male interviewee, 8 February 2019) as 
follows:

{The} Malawi Bureau of Standards monitors fresh 
fish processing done by formal businesses who add 
value to the fish. Monitoring of fresh fish sold at the 
open‐air markets or by mobile vendors is done by city 
councils and the Department of Fisheries. Value addi-
tion to fresh fish includes further processing and/or 
packaging. All traders in Malawi doing value addition 
onto fresh fish are monitored by the MBS using the 
following standards:

•	 Frozen Fish – Specification. MS 115:2002
•	 Food and food processing units code of hygienic 

conditions, first revision. MS 21:2002
•	 Labeling of prepacked foods – General standard. 

MS 19:2001.
The respondent from the MBS knew there was a frozen fish stan-

dard but was not aware of the fresh fish specification from their same 
organization (MBS, 2007).

TA B L E  1   Regulatory framework supporting the link between water, sanitation, and hygiene infrastructure standards and food safety 
evaluation criteria where fresh fish are sold, Mzuzu, Malawi

Title Date Relation and gaps

Public Health Act 1968 Focus on food intended for human consumption, including sanitary control of food‐selling 
premises. No specific guidance on how to monitor or evaluate. Generally, an out‐of‐date policy 
developed soon after independence.

Local Government Act 1998 City councils have control to establish, maintain, and manage places where food is sold at mar-
kets, market buildings, and surrounding premises.

Mzuzu City
Food by‐laws

2001 Fresh fish should only be sold at market places or other authorized premises. Fish should be 
covered and protected from contamination when in transit. States, in limited detail, that water 
and sanitation facilities must be available at food‐selling premises but does not include criteria 
for the required number of or standards for available water sources or sanitation facilities that 
need to be available. Does not include limits for coliforms or Salmonella spp. in food.

Malawi Bureau of Standards
Food and food processing units 

code of hygienic conditions

2002 Focus on the growing, harvesting, preparation, processing, packaging, storage, transportation, 
distribution, and sale of food but with no criteria for informal food‐selling premises such as 
markets or mobile vendors, or fish sales.

National Water Policy 2005 States that water and sanitation facilities should be available for both customers and vendors at 
urban market areas but does not include criteria for the required number of or standards for 
water sources or sanitation facilities that need to be available.

Food Security Policy 2006 Reference to fish is per sustainable food production. Limited link between food safety and food 
security.

Malawi Bureau of Standards
Fresh fish specification

2007 Specific guidance criteria cover the handling, preparation, distribution, and packaging of fresh 
fish with a focus on large retail (permanent) operators. There are no guiding criteria on fish 
sales for informal food‐selling premises such as markets or mobile vendors. Does not include 
limits for coliforms or Salmonella spp. in food.

National Sanitation Policy 2008 Recommends market traders manage sanitation through committees for solid waste disposal, 
recycling, and public sanitation facilities. There are no criteria for the required number of or 
standards for handwashing stations or sanitation facilities that need to be available per market 
or user population in urban areas.

Malawi Bureau of Standards
Drinking water specification

2013 States physical, organoleptic, chemical, and microbiological limits for consumed piped water.

National Fisheries and 
Aquaculture Policy

2016 Focus on fish quality and value addition but no specific guidance on how to monitor or evaluate 
food safety for fresh fish.

National Environmental Act 2017 Focus on public participation in environmental management but no reference to environmental 
planning specific to public spaces where food sellers operate.



     |  5LAZARO et al.

The Mzuzu City Council responded (male interviewee, 8 
February 2019) as follows when asked about their monitoring of 
fresh fish vendors:

Mostly visual or fish smell too, but when suspicious, 
{a} microbial {laboratory} test is done. Laboratory 
analysis of water and food samples is done at the 
central laboratory in Lilongwe. Monitoring is done 
routinely by health officials, but a joint team conducts 
inspection{s} every 3 months. Environmental Health 
Officers conduct the monitoring in conjunction 
with {the} MBS, labor office, and industry and trade 
officers.

While the Mzuzu City Council had the highest level of awareness 
about national acts and policies and local regulations, their monitor-
ing and evaluation practices that were conducted were not consistent 
from those of other respondents.

3.2 | Water, sanitation, and hygiene environment 
for fresh fish vendors

Mzuzu City Assembly (2001) regulations note that piped water 
should be available at food‐selling premises. Only three of the four 
markets had any water access for vendors. Of these, the two mar-
kets with piped water (Chibavi Market and Mzuzu Central Market) 
had safe water (0 cfu/100 ml for E. coli and safe based on MBS, 2013 
and WHO, 2017), whereas the Zolozolo Market was using a shallow 
well which had E. coli levels of 450 cfu/100 ml (Figure 2).

When water was available, the market vendors (15/15) reported 
using it; however, at the one market without a water supply (Area 1B 
Market), vendors reported either obtaining water from their home 
(4/5) or buying it from a nearby shop (1/5).

All vendors (25/25) used stored onsite water to sprinkle over the 
fish throughout the day to keep them from drying out; they called 

this “washing water.” Mobile vendors stored water in a 1‐ or 2‐L plas-
tic bottle. Market‐based vendors stored it in a 5‐ to 20‐L metal or 
plastic bucket. Water was splashed from the water storage container 
onto the fish with bare hands.

The mean E. coli level for washing water was 700 cfu/100 ml, and 
the mean level for fish skin was 170 cfu/g. All samples of fish skin 
(25/25) were positive for the presence of Salmonella spp. A Mann–
Whitney test comparing the median E.  coli level in washing water 
used by mobile vendors with that in washing water used by mar-
ket‐based vendors revealed no difference (p =  .052), though many 
(20/25) samples had E. coli. A Mann–Whitney test comparing E. coli 
levels on fish skin from mobile vendors with that on fish skin from 
market‐based vendors also revealed no difference (p = .062), though 
all samples had E. coli. All market‐based vendors (20/20) indicated 
that drinking water during their work day was available to purchase, 
but this water was not analyzed for E. coli in our study.

Fresh fish vendors at each market were clustered together, but 
the selling sites were adjacent to those for other food items, such 
as fresh fruits and vegetables. Market areas where fish are sold 
were observed to be used by 27–69 people per hour, and the Mzuzu 
Central Market was the busiest with a mean of 54 people per hour. 
The market vendors reported selling fish at their respective markets 
for a mean of 6 hr per day (n = 20). However, the vendors operating 
in the Mzuzu Central Market (n = 5) had the highest mean at 11 hr per 
day. Only two markets (Chibavi Market and Mzuzu Central Market) 
had working sanitation facilities (pour flush, urinal, or a room con-
taining a flush toilet piped to a septic tank) for customers and ven-
dors, and although both had a handwashing station with water, there 
was no soap present (Table 2 and Figure 3). One other market, Area 
1B, had some sanitation infrastructure, but there was a plumbing 
blockage at the time of data collection, rendering it nonoperational. 
Where there were sanitation facilities present, the vendors (8/10) 
generally reported using them, though this was contrary to our re-
searcher observations of a mean of one person per hour using each 
sanitation facility. The sanitation facilities were designed for a higher 

F I G U R E  2   Escherichia coli in fresh fish skin, stored washing water, and water sources where fresh fish are sold, Mzuzu, Malawi



6  |     LAZARO et al.

level of use than was observed, as one market had five stalls and the 
other had two stalls.

The eight vendors who reported using their market's sanitation 
facilities said they paid MK50–100 (USD 0.07–0.14) as a pay‐per‐
use system. These fees may be a barrier. In order to pay for the use 
of the sanitation facilities, a vendor in this study would have to sell 
a small pile of E. sardella containing 4–8 fishes or one individual O. 
microcephalus.

The Chibavi market sanitation facilities were cleaned by the com-
munity and had the lowest cost per use. Furthermore, all of these 
vendors (5/5) indicated that they were being managed well and they 
were satisfied with the safety and cleanliness. It was stated that 
cleaning was performed daily. In contrast, the second market with 
a sanitation facility, the Mzuzu Central Market, was cleaned by local 
government employees (from the City Council) and had fewer (2/5) 
vendors who indicated that it was being managed well and fewer 
(2/5) vendors who were satisfied with the safety and cleanliness. 
When vendors were asked “How does the condition of the sanitary 
facility present here compare to your home?”, all of the Chibavi mar-
ket vendors (5/5) reported that it was better than that of their home 
but fewer of those (2/5) at the Mzuzu Central Market said it was 
better.

Solid waste was also a problem at each market area, with all mar-
ket‐based vendors (20/20) indicating that trash was thrown either 
“everywhere” or in an open pit within the market area, and no mar-
ket‐based vendors (0/20) noted any waste reduction, reuse, or recy-
cling measures in place at their market.

About half (11/20) of market‐based vendors had heard about 
foodborne diseases and, when further probed, listed cholera, diar-
rhea, and (though not appropriate) cough as examples. When asked 
about symptoms of foodborne diseases, fever, diarrhea, stomach 
pain, and vomiting were listed. When asked “Do you know how 
microorganisms that cause foodborne diseases are transmitted?”, 
75% of market‐based vendors did not know how microorganisms 
that cause foodborne diseases were transmitted. The most com-
mon disease vendors mentioned that could be transmitted in fresh 
fish was ringworm (3/20), with one of these respondents stating 
“stop consuming fish species that cause the disease” as a way to 
control ringworm. Ringworm though is a skin infection and not a 
foodborne disease. This indicates a generally low level of knowl-
edge of foodborne diseases or transmission by the vendors in our 
study.

Many vendors (18/25) sourced their fish from an intermediary. 
The notable exception was that all vendors (5/5) operating at the 
largest market, Mzuzu Central Market, obtained their fish directly 
from Lake Malawi fishers. All mobile vendors (5/5) bought fish from 
an intermediary. The vendors used bicycles and public transport 
(local minibuses and taxis) to transport fish; in no case was a vehicle 
dedicated for food transport reported to be used.

National standards dictate that the holding temperature of 
fresh fish be maintained as close as possible to 0°C (MBS, 2007), 
but only three vendors (3/25), all operating at the Mzuzu Central 
Market, used ice and not necessarily enough to keep all fish at TA

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     |  7LAZARO et al.

a consistent temperature. No vendors actually monitored the 
temperature; no thermometers were present or used by vendors. 
When using ice, vendors reported getting it from a shop within 
the market area; they did not make their own ice. For the mobile 
vendors, fish were not covered with block ice, a sunlight barrier, 
or a dust barrier.

4  | DISCUSSION

Handwashing with soap and water by vendors while at work and 
keeping food at a proper temperature appear to be the most ef-
fective ways of reducing E. coli and Salmonella spp. contamination 
in fresh fish sold by vendors in Mzuzu, Malawi. Still, knowledge of 
foodborne diseases is low among vendors. To accelerate these be-
haviors, more training is needed along with proper infrastructure to 
facilitate the practice. Although the vendors' handwashing practices 
were not directly observed, the lack of soap was inferred to con-
tribute to the presence of E. coli and Salmonella spp., as the vendors 
sprinkled water onto the fish throughout the day. While the FAO 
(2009) guidelines state that potable water is required when there is 
contact with fish, only three of the four markets had water available 
for fish vendors, and this water was potable at only two markets. 
Local (Mzuzu City Council, 2014) and national (National Statistical 
Office [Malawi] and ICF, 2017) documents track the water supply 
and sanitation infrastructure for households, but data are limited 
for public spaces and mainly comprise data from schools and health 
facilities.

In our study, we found that the national food safety acts and 
policies and local regulations for fresh fish that are in place are more 
applicable to formal retail settings, which primarily serve higher in-
come customers, than to open‐air markets. The largest gap was for 
mobile vendors, where deficiencies are not being addressed at all. 
Even for the limited national guidelines that are in place, we found 
that they were not followed. For example, none of the vendors were 
observed to have any way of determining whether they were in com-
pliance with holding temperature (MBS, 2007). Many of the findings 

in our case study agree with those of the nationwide study by Morse 
et al. (2018): lack of knowledge on national acts and policies and 
local regulations and standards and that it was not clear who was to 
perform onsite monitoring and evaluation, frequency of food safety 
and quality monitoring, or what criteria to use. Pertinently, our study 
results go further, as the E. coli and Salmonella spp. data demonstrate 
that there are problems. Even in the United States, Heinitz et al. 
(2000) found some incidence of Salmonella spp. in fish imported into 
the United States from around the world, but the findings that all of 
our fish samples had Salmonella spp. and no visible signs of spoilage 
indicate a need for critical control points to improve food safety in 
Malawi.

Globally, as shown by Cumming and Cairncross (2016), poor 
water, sanitation, and hygiene access have in some cases been 
linked to poor childhood growth and development. Despite these 
findings, this is a complex issue because interventions in low‐ and 
middle‐income countries have dominantly focused on household ac-
cess rather than public spaces where food is present and purchased. 
For weaning children, even the safety of cooked foods is important. 
There is an important link between our study results and the work 
performed by Touré, Coulibaly, Arby, Maiga, and Cairncross (2013) 
in Mali on home‐prepared soup cooked with local fresh fish and veg-
etables commonly eaten as a weaning food; they reported that after 
cooking, 68% of fish soup samples had greater than 100 thermotol-
erant coliforms/g and that after further storage at room tempera-
ture, 90% of fish soup samples had greater than 100 thermotolerant 
coliforms/g. However, the prevalence of thermotolerant coliforms 
was effectively reduced after the mothers improved their hygiene 
practices during cooking and storage by using potable water, wash-
ing dishes, washing hands, and reheating leftovers. Importantly, 
Touré et al. (2013) did not look at reducing fecal contamination in 
local fresh fish used as an ingredient in the soup at the time of pur-
chase and before it entered the home being linked to the children's 
health indicators.

While sanitation facilities were only available at two of the four 
open‐air markets, not all vendors reported using them even when 
they were present. Vendors pay a daily fee (a tax) to the Mzuzu 

F I G U R E  3   Urinal, flush toilet, and 
handwashing station infrastructure near 
Mzuzu Central Market fish vendors



8  |     LAZARO et al.

City Council. For the last reported period, the council recorded that 
MK40,019,849 (USD 148,000 assuming MK268/USD 1 in 2012) was 
collected in 2011/2012 (Mzuzu City Council, 2014). The Mzuzu City 
Council also has several implementing partners working on water 
supply, sanitation, and hygiene promotion in public spaces. One spe-
cific example is the European Union, which invested approximately 
€3,000,000 (USD 3,400,000) in Mzuzu City between 2013 and 
2017 (European Union, 2019). Some of these investments included 
construction of privately run sanitation facilities in market places 
and the expansion of the piped water supply:

1.	 Improving water supply, sanitation, and hygiene promotion in 
peri‐urban areas of Mzuzu and Karonga Towns. Cost €923,005 
from April 2014 to September 2017 by UN Habitat;

2.	 Integrated WASH intervention in low‐income areas in Mzuzu 
and Karonga. Cost €1,213,100 from May 2014 to March 2017 by 
Malawi Red Cross Society through the Netherlands Red Cross; 
and

3.	 Peri‐urban sanitation and hygiene project in Mzuzu City. Cost 
€1,246,907 from December 2013 to May 2017 by Plan Malawi.

The timing of these projects provides an opportunity to envision a food 
safety chain as part of a comprehensive urban planning approach that 
combines safe water together with sanitation access for public places, 
including food markets. The results of our study raise the question of 
whether these projects actually improved the living standards in urban 
public spaces or improved food safety for the people of Mzuzu City. 
For just these three projects, the total investment in Mzuzu was about 
USD 15 per person in the city. Though the Mzuzu Central Market had 
new sanitation facilities that were built under one of these projects, 
the existing facilities adjacent to the fish market included in our study 
were still being used because of the convenience of being within 30 m 
of the fish vendors' selling point, as opposed to the new sanitation 
facility 160 m away and across a busy highway (the newer facility was 
not included in our study because it was not commonly used by fresh 
fish vendors). In addition to sanitation facilities being in good condi-
tion, a vendor or customer must also want to use them.

Similar to the findings by Afacan and Gurel (2015) on public 
sanitation facilities in Turkey, our sanitation facilities had issues 
with cleanliness. However, in our study, even when payment was 
required to use public sanitation facilities, it did not necessarily 
mean they were clean. Based on their reported working hours, 
vendors would likely need to use a sanitation facility multiple times 
during the day, incurring a cost of MK 50–100 (USD 0.07–0.14) for 
each use. Thus, sanitation facilities that are not in working order 
or that people prefer not to use may lead to increased open uri-
nation or defecation or the use of other unimproved facilities that 
are farther away from their place of work. The situation is worse 
for the mobile vendors who would need to find sanitation facili-
ties on their route and leave their bike and merchandise. The lack 
of handwashing with soap in all the markets is a critical gap from 
a food safety standpoint. Based on our study results, at least for 
the two markets with working sanitation facilities, the sanitation 

facilities were probably sufficient for users, whereas at the two 
other markets, this infrastructure should be immediately prior-
itized. McGinnis, Marini, Amatya, and Murphy (2019) noted that 
well‐maintained privately owned, pay‐per‐use community sani-
tation facilities in Nepal were as clean or cleaner than household 
sanitation facilities. Based on the swab sample results for bacterial 
concentrations in that study, in community sanitation facilities, the 
seat/floor, tap/handle/bucket used for anal cleansing, and door 
handles were the surfaces to focus on when cleaning.

5  | LIMITATIONS

The number of markets and vendors included in this study was 
small but did include a range of geographic areas and market sizes. 
This study did not involve market owners and operators nor did 
it consider the profit margin of vendors compared to food safety 
practices or consumer food safety awareness. Intermediaries as 
a source of introducing contamination into the fresh fish supply 
chain were not addressed in this study. The fish in this study would 
traditionally be cooked prior to consumption. Further research to 
include more of the mobile fresh fish sellers operating in the city 
is needed.

6  | CONCLUSION

In conclusion, there are food safety gaps for fresh fish sold from 
individual vendors in Mzuzu, Malawi,  resulting from urban water, 
sanitation, and hygiene infrastructure, the lack of vendor knowledge 
and behavior, and inadequate oversight. This study on four open‐air 
markets and mobile fish vendors found high E. coli levels in the water 
used for washing the fresh fish onsite and on the fish skin, and only 
two markets had a water source free of E. coli for vendors to use. 
By using E. coli and Salmonella spp. analyses alongside sanitary sur-
veys and interviews, our study provides some preliminary evidence 
that indicates a need for critical control points to improve food safety 
in Malawi despite there being no visible or olfactory signs of spoilage 
in the fish samples sold by vendors. In general, limited monitoring 
and evaluation oversight was being performed where fresh fish are 
sold by individual vendors, and regulator guidance was inadequate. 
The vendors had a low food safety awareness, yet they spend long 
hours selling fish and fish are an important source of dietary protein 
in households. More research is needed in low‐ and middle‐income 
countries to better understand urban public spaces where food 
is sold from informal markets and the prevention of malnutrition 
among urban children under the age of 5 through food safety ap-
proaches. This research identified the following three key opportu-
nities for reform: (a) National acts and policies and local regulations 
must consider informal markets and mobile vendors; (b) Safe water, 
clean and functional sanitation facilities, and handwashing stations 
with soap accessible for all food vendors; and (c) Education for food 
vendors on foodborne disease.



     |  9LAZARO et al.

ACKNOWLEDG MENTS

Texas Tech University is acknowledged for providing consumable 
laboratory supplies. The authors also appreciate the technical sup-
port from Amanda Joynt and editing by Kip McGilliard.

CONFLIC T OF INTERE S T

The authors declare that they do not have any conflict of interest.

E THIC AL APPROVAL

This study was approved by the Republic of Malawi National 
Commission for Science and Technology (Protocol Number 
P.10/18/327).

INFORMED CONSENT

Verbal informed consent was obtained from all study participants.

ORCID

Rochelle H. Holm   https://orcid.org/0000-0001-8849-1390 

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How to cite this article: Lazaro J, Kapute F, Holm RH. Food 
safety policies and practices in public spaces: The urban 
water, sanitation, and hygiene environment for fresh fish sold 
from individual vendors in Mzuzu, Malawi. Food Sci Nutr. 
2019;00:1–9. https​://doi.org/10.1002/fsn3.1155

https://orcid.org/0000-0001-8849-1390
https://orcid.org/0000-0001-8849-1390
https://doi.org/10.1068/b130020p
https://doi.org/10.1068/b130020p
https://doi.org/10.1111/mcn.12258
https://doi.org/10.1111/mcn.12258
https://doi.org/10.3362/1756-3488.17-00005
https://ec.europa.eu/europeaid/search/site/mzuzu_en
https://doi.org/10.3394/0380-1330(2008)34%5B228:SASOEC%5D2.0.CO;2
https://doi.org/10.3394/0380-1330(2008)34%5B228:SASOEC%5D2.0.CO;2
https://doi.org/10.4315/0362-028X-63.5.579
https://doi.org/10.3390/ijerph16020257
https://doi.org/10.3390/ijerph16020257
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https://doi.org/10.1111/lre.12248
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https://apps.who.int/iris/bitstream/handle/10665/254637/9789241549950-eng.pdf;jsessionxml:id=054D53AD5EE1CCD6C897ED3194E1EB80?sequence=1
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