The role of animal feed[1] in
the production of safe food is recognized worldwide, and recent events have
underlined its impacts on public health, feed and food trade, and food
security. Concerns prompted by the outbreak of bovine spongiform encephalopathy
(BSE) in the United Kingdom, and other more common food problems associated
with salmonella, enterohaemorrhagic escherichia
coli and other micro-organisms. Based on those recently
outbreaks, feed has a significant position in
any implementation scheme of food safety assurance system (feed to
food safety assurance)
in the international sphere. Some schemes
that gives substantial
importance on feed aspects include "EurepGap"
/ "GLOBALGAP" (applicable in most European
Union countries), "BRC Global Standard", "Safe
Quality Food /
SQF" (most effective
in Australia and
the Commonwealth), as well as "International Food Standards" that apply
almost all over the world.
In Indonesia, cases of
contamination of food, especially food of animal origin, has not been in fact widely
reported. However, there are several studies signifying that the contamination
of food come from the feedstuff. Bahri (2008) showed that most cases of
contamination is by residues of veterinary medicines, mainly antibiotics and
sulfa group. While Indraningsih and Sani (2006) showed that in livestock
products (most in beef) is also commonly found pesticides in the class of organochlorine and organophosphate. In addition there also found, pesticide
contamination in the milk at various level. Indraningsih (2008) showed that it
was detected several classes of pesticides, namely lindan, heptakhlor and diazinon in milk within various level
between regions. Bahri (2008) that cited Mary et al (1994) also showed that in
addition to pesticides, aflatoxin can also be found in a various animal-origin
products, such as in chicken and duck eggs. Therefore, it is estimated that
there are many other contamination cases in Indonesia are left unreported.
As
above, it may indicate that feed safety
system in Indonesia
is not being the main issue yet. In these findings, the ruminant feed
seems to be more at risk to a potential contamination as consequences of its
characteristic. Unlike
the poultry industry
which already has a structured feed supply chain, ruminant feed is still
likely underdeveloped. This paper will mainly address the
issues related to feed safety in the ruminant industry. The discussion will
begin by presenting a brief condition and characteristic of ruminant feed
production in Indonesia, then the issues and opportunities for development, and
concludes with the recommendation.
Structure
and Conduct in Ruminant Feed
Most
of ruminant production is still in the form of family farming (smallholder
farming), that is complementary to crop farming in general. The practices of
ruminant production are commonly done by utilizing resources that can be obtained
at no cost (or at minimum cost), especially in feeding practice (low-input
low-output system). Agricultural wastes (crop residues) are still the main
source of feed for ruminants that still can be obtained without any significant
cost.
A
small part of ruminant farming in Indonesia is carried out by medium to
large-scale enterprise, such as dairy cooperatives and feedlots. They are
considered to be the major consumer of feed. Some of the feedstuff used by these
enterprise are rice bran, cassava, pollard, meals and cakes (from coconut,
peanut, soybean and palm). However, until now, there is not yet formal information
regarding the market, thus the volume of feedstuffs production is still
difficult to estimate accurately. To approximate the feedstuff market, the overall
feedstuff consumption of some dairy cooperatives in Indonesia is expected to be
used as an estimator.
Table.1. Estimated feedstuff
consumption by dairy industry in Indonesia (tons)
|
Feedstuff
|
Year of:
|
|
|
2008
|
2009
|
|
|
Bran
|
381,126
|
414,506
|
|
Pollard
|
47,285
|
44,266
|
|
Wheat bran
|
36,445
|
36,403
|
|
Cassava waste
|
63,576
|
19,203
|
|
Kapok meal
|
20,299
|
51,931
|
|
Palm oil meal
|
173,410
|
140,591
|
|
Cocoa meal
|
17,418
|
22,685
|
|
Soybean meal
|
25,455
|
13,885
|
|
Peanut meal
|
15,591
|
16,620
|
|
Mineral
|
3,246
|
4,493
|
Source: own compilation.
Feedstuff,
which is largely a by-product, obtained from
various commercial units of the agricultural product processing and plantation, which
is done through trade between regions (provinces) or between islands
in Indonesia. The supply of energy-based feedstuff (such as cassava) usually can
be met from the
island of Java, while protein-based feedstuff (such as bran and palm oil waste) are fulfilled by the supply of the
island of Sumatra. Especially in beef
cattle, feedlot industry
is estimated to have a level of demand for feed
ingredients - especially
the source of protein - which is much higher than the manufacturer
of dairy cattle feed. This can be clarified
by looking at the increasing population of beef cattle - both
local and imported - in Indonesia. Based on
population, the demand for feed ingredients
for feedlot industry is estimated to reach about
730 thousand tons of feed energy sources, and 435
thousand tons of
protein per year.
General
Issues in Ruminant Feed Production
Quantity and Quality. In the national
ruminant, feedstuff sufficiency is still a major problem in smallholder farmer.
In this context, the sufficiency of feed can be viewed from various
perspectives. In the perspective of availability, the level of sufficiency will
be significantly influenced by the movement of the season (seasonal movement),
where in certain seasons the level of food availability will decline sharply
and vice versa. In addition to the seasons, land use pattern / land
ownership (land tenure) is also a crucial factor in the level of sufficiency.
High rates of land conversion and transfer of ownership in sub-urban areas are
significantly reducing the level of availability of feedstuffs.
Of course, there are many factors that affect the status of
availability of feedstuff other than the season and land usage patterns. Among
other things, those are including geographical factors, the behavior of the
distribution of feed ingredients, feed ingredients and the presence of
competition for food, labor availability, and so forth. A considerable periodical
low availability of feed supplies can also be reflected on its behavior of
price changes throughout the year. As an illustration, the movement of some feedstuffs
price index of energy sources in 2009 are presented below.
Picture 1. The dynamics of feed price index movement in West Java in
2009
Source: own calculation.
As
price is closely correlated with the quantity of the availability / supply, Pic.1
above can show the status of the main feed raw material availability throughout
the year. As an illustration, the supply of bran will tend to be higher in the
period March to May because it occurred during the crop harvest period. While
contrary to the period from June until the end of the year, the availability
will experience a decreasing trend since that period is the period of the crop planting.
Overall, the availability of other ruminant feedstuff- most of which is a
by-product of food crop - has a similar movement but with different periods.
As has been described previously, the main source of ruminant
feed is crop waste or by-product of food processing. Crop waste is a major
energy source in feed because it contains up to 80% polysaccharides of dry
matter (DM) (FAO, 2000). However, waste has typically a low digestibility and
palatability, that is affecting feed intake. Application of technology to improve
the quality of crop waste has been widely initiated and implemented by various
parties, but its impact has not been seen until now. Feedstuffs which are
by-products of agro-industries (usually the source of protein) typically
possess better quality. But the facts also show that the by-product which has a
relatively high quality usually compete with other uses.
In fact, Indonesia has a
set of regulations
concerning to the
quality of feed. It is
summarized in Section 19 -
23 at
the Law No.18 of 2009 regarding Animal
Husbandry and
Animal Health. In these
articles, even so,
feed quality aspects have
not received
sufficient consideration. In
addition, the ISO standardization of feed and feed ingredients (rations) have
also been carried out. To date, there
have been 34
types of
feed and
feed ingredients so (complete / compound feed) that have
been standardized
nationally.
However, enforcement of regulations
and the
application of
these standards still require further study for effective
implementation.
In
the context of this
issue, the application of safety guarantee scheme is likely to be implemented only if
the supply of feed can be steady in the long term. During the
limited feed supply
(availability, access, and fluctuations), quality
is unlikely to be the basis for further consideration.
The safety of feed on existing
institutional setting. The issue of food safety is a part that related to feed quality.
Until recently, feed safety aspects still have not received significant
emphasis. In the international sphere, attention (awareness) to the feed safety
arises since the establishment of a multi-country task force, known as Codex
Alimentarius in 1999 as a continuation of the FAO recommendation of 'feed and
food safety' in 1997 (FAO, 2008). In principle, the main purpose of the
recommendation of food safety is to prevent contamination / hazard (biological
agents, chemical or physical that potentially harmful to human health) into the
food chain through feed. Although Indonesia is also referred to the Codex
guidelines, but the practice is still quite difficult to implement given the
complexity of ruminant feed supply system.
Based on the type
of feed and
processing stage, some potential contaminants
in feed can be
presented in
the previous
Table.2 below.
Table.2. The
potential stage of contamination occurrence.
|
Type of feed
|
Pre harvest
|
Post harvest
|
Processing
|
|
Grains
|
1, 2, 4
|
1
|
1
|
|
Oilseeds
|
1, 2, 4
|
1, 2, 4
|
1, 2, 3, 4
|
|
Molases
|
2, 4
|
-
|
1
|
|
Roots & tubers
|
2, 4
|
1
|
1
|
|
Forages
|
1, 2, 3, 4
|
1, 3
|
1, 2
|
|
Roughages
|
-
|
1, 2, 3
|
-
|
|
Fat
|
-
|
2
|
-
|
Note: (1)
mycotoxins; (2) agricultural chemicals; (3) microbial pathogens; (4) heavy metal
(FAO, 2000).
The data in these tables show that at every stage in the process
possess great potential
for contaminants to enter
the production chain.
As an illustration,
oilseeds have the
potential to be contaminated at any stage
of production,
ranging from crop
cultivation
practices, harvesting, to processing stage. This
stage would
also include
the step of
storing product, distributing and processing
of pre-treatment.
Furthermore, it
can be observed
that the potential contaminants that enter the
production chain varies
from biological
agents, mycotoxin and heavy
metals. Such conditions create a wide
implications on the scope of safety assurance system in the ruminant feed
sector.
One
of the important aspects related to safety in feed production stage is every actor involved in
every step of production. Ruminant feed industry consists of
various production units that are inter-related but does not have an integrated
structure. Each actor can be assumed as a single business unit that aims to
maximize the return on the production of different commodities. Crop farmer, agro-processing
and agro industry, as the main source of ruminant feed raw material, is a
business unit that aims to produce food, while feed is only a by-product. The
actors of feed business can be mapped as shown below.
Picture 2. Actors in ruminant feed supply
As
one can see, every actor who is in the food production chain has a specific
function. The main actors, such as farmers, processors and agro-industry, do
not intend to produce feed directly, instead of the main product, food crop or
final agro industry product. This implies the absence of feedback mechanism in
the chain. In fact, the production of safe
feed requires all those involved along the feed chain to recognize that primary
responsibility lies with those who produce, process and trade in feed.
To
sum up, potential contamination can occur at any stage of food production and actors
at each step. Based on the current condition, any efforts to implement feed safety
scheme is likely to bear with obstacles. Clearly, the producers of feedstuff typically
a small-medium businesses, and geographically fragmented. This condition bring the
quality management and food security in the whole chain also seems to be
unrealistic. Investments and costs will arise in the infrastructure, technology,
human resources, and regulations.
Even
so, there is no risk-free implementation given the fairly long supply chain and
actors involved. A range of factors make the
management of these problems more difficult in developing countries: climate
more favorable to microbial and fungal contamination, less structured supply
chains (with fewer in-built incentives for quality assurance), limited
resources to conduct monitoring and testing. Also, in many developed countries,
a number of institutions are involved within the animal feed industries and
deal with issues ranging from regulatory decree, quality assurance, safe
production and circulations within the marketplace. This is something very new in
Indonesia.
Conclusion
In the context of feed safety
implementation, the development of ruminant feed supply chain became
one of the biggest challenges. As
feed safety is likely to be applied to the chain
system that has
been built, any effort on chain development and its implementation in
ruminant feed in Indonesia
has become imperative. Its implementation
requires an enabling and rules-based policy and regulatory environment as well
as the establishment of feed control systems and programs throughout the feed
chain at national and local levels. Sharing the responsibility for providing
safe feed among all players in the feed and agriculture sector - from feed
producers and processors to retailers and user - is mirrored by an approach in
which developed countries offer developing ones the resources and experience to
build their capacity to ensure their feed chains are safe.
Most important, the key is to
strengthen each and every link in the complex process of feed reaching the user
- from the way it is grown or raised, to how it is collected, processed,
packaged, sold and consumed. One weak link can mean the whole feed chain
collapsing. Lastly, one could be sure that once the structured chain is
established, Good Agricultural Practices (GAP), Good Manufacturing Practices
(GMP), along with Hazard Analysis and Critical Control Point (HACCP) are having
great potential to be applied.
[1] Feed (feedstuff) is
any single or multiple materials, whether processed, semi-processed or raw,
which is intended to be fed directly to food-producing animals (FAO, 2004).
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