Surya et al.
The Capability of Rice Plant Waste Sourced from the Feed Concentration Index Buletin Peternakan 47 .
: 198-207.
August 2023 Bulletin of Animal Science ISSN-0126-4400/E-ISSN-2407-876X Accredited: 230/E/KPT/2022 http://buletinpeternakan.
Doi: 10.
21059/buletinpeternak.
The Capability of Rice Plant Waste Sourced from the Feed Concentration Index in Farmer Groups in Salo Urban Vilagge Surya1*.
Rahmaniar Rahman2.
Fitriawaty1.
Ida Andriani3, and Azhar Amir1 Research Center for Animal Husbandry.
Research Organization for Agriculture and Food.
National Research and Innovation Agency.
Cibinong, 16915.
Indonesia Departmalet of Agriculture and Food Crops.
Pinrang.
Indonesia Research Center for Behavioral and Circular Economics.
Research Organization for Governance.
Economy, and Community Welfare.
National Research and Innovation Agency.
Jakarta.
Indonesia
ABSTRACT
Article history Submitted: 7 June 2023 Accepted: 1 August 2023 * Corresponding author:
E-mail: sury038@brin.
This study aims to determine the characteristics of farmer groups, rice plant waste production, livestock performance, livestock economic density and feed concentration index in Salo Urban Village.
This study uses a descriptive cross-sectional research design.
Data were analyzed to look at the characteristics of farmer groups according to sex and age, rice plant waste production, livestock performance, livestock economic density and feed concentration index in Salo Urban Village.
The results showed 23 farmer groups with 1.
077 members, 937 male .
%) and 140 female .
%).
There were 2 categories: the productive category for those aged 15 - 64 years old .
,24%) and the unproductive category for those over 65 years old .
,76%).
The average harvested area is 39,18 Ha/farmer group.
with fresh production of rice plant waste being 465,80 dry production of rice plant waste being 263,65 tons.
and dry matter production being 233,49 tons.
The livestock performance equation is In (Y) = -348.
18t with a growth rate of 18% for cattle and In (Y) = -340.
17t with a growth rate of 17% for goats, and has an economic density of livestock in the rarely category.
The feed concentration index obtained three categories, namely the high production category .
farmer grou.
, the medium production category .
farmer group.
and the low production category .
farmer group.
Shows that rice plant waste harvested from farmer groups in Salo Urban Village can be used as a ruminant feed source.
Keywords: Feed concentration index.
Rice plant waste capability.
Farmer groups Introduction Indonesia is located in a tropical climate and is very suitable for growing rice plants.
The harvested area of rice plants in Indonesia in 2021 will reach 10,41 million hectares, with a total rice production of 54,42 million tons of dry-milled grain (Badan Pusat Statistik, 2.
It will positively correlate harvested area and the amount of waste The by-products of rice plant waste are widely used as animal feed, such as the use of rice straw with Lactobacillus casei TH14, molasses, and cellulase as feed for Thai cattle (Cherdthong et , 2.
a combination of paper mulberry silage with rice straw as ruminant feed (Du et al.
, 2.
combination of rice straw with protein salt as feed for beef cattle (Hoerbe et al.
, 2.
and a mixture of sugar beet pulp and rice straw as feed for dairy cows (Wang et al.
, 2.
Livestock separated from agriculture because agricultural businesses have the potential to provide rural waste that can be well as feed for livestock development in Indonesia.
Rice by-products are available in relatively large quantities and have economic value.
The abundant availability of rice plant waste provides an opportunity to be used as an energy source for ruminants (Wang et al.
, 2.
like beef cattle (Chuntrakort et al.
, 2.
, dairy cows (Khonkhaeng et al.
, 2021.
Lunsin, 2.
, buffalo (Efendi and Ramon, 2.
, sheep (Passetti et al.
, 2.
and goat (Huanca et al.
, 2021.
Romero et al.
, 2020.
Yuangklang et al.
, 2.
The rice plant waste used as animal feed is the growing stem, which after harvesting the grains of fruit together or not with the stalk, is reduced by the roots and the role of the branch left after being slashed.
The provision of rice plant waste as animal feed is carried out during the dry season because the availability of fresh forage feed begins to decline when feed is the most crucial factor in the ruminant livestock business.
Utilization of rice plant waste can also be in the form of silage or association with other silage formulations, for example, the association of rice straw silage with Moringa leaves (He et al.
, 2.
, the addition of corn steep liquid to Surya et al.
The Capability of Rice Plant Waste Sourced from the Feed Concentration Index rice straw silage (Li et al.
, 2.
, fermentation and adsorption of lactic acid bacteria culture broth on rice straw (Liu et al.
, 2.
, a mixture of cellulase and Lactobacillus plantarum in rice straw silage (Mu et al.
, 2.
, the interaction of Silo density and the addition of additives to rice straw silage (Tian et , 2.
, and rice straw silage added to lactic acid bacteria inoculants (Zhang et al.
, 2.
The feed source from rice plant waste can be used as animal feed.
The Salo Urban Village area is one of the Villages in Watang Sawitto District.
Pinrang Regency, which has the potential for the development of ruminants.
Salo Urban Village is one of the top three areas of the eight other villages in Watang Sawitto District and is 3 km from the center of the District (Badan Pusat Statistik Kabupaten Pinrang, 2.
In addition, it is also one of the areas that utilize part of its land for growing rice, thus indicating that in Salo Urban Village, there is rice plant waste in the form of rice straw, which can be used as ruminant livestock Optimization of the utilization of rice plant waste in Salo Urban Village can be seen based on the capability of rice plant waste sourced from the feed concentration index in the farmer group because one of the determinants of livestock success is the availability of feed resources.
Rice plant waste produced by farmer groups requires a feed concentration index to calculate the production of animal feed availability so that feed availability during the dry season can fulfil.
The feed concentration index value is the ratio of the feed production of an area to the overall average feed production (Fuah et al.
, 2.
There are several studies related to the feed concentration index in several locations, such as in Pare-Pare City (Rauf and Rasbawati, 2.
, and Gowa District (Mariam and Syamsu, 2.
A farmer group is one of the actors involved in using rice plant waste as ruminant feed.
Several studies have been carried out regarding farmer groups that use rice plant waste as animal feed, namely in the Nek'to Noapala Farmer Group in Kiuola Village, which utilizes rice plant waste fermentation in Bali Cattle (Nahak et al.
, 2.
integration of rice plant waste with cattle in the Bina Karya Farmer Group.
Nagari Koto Hilalalng.
Kubung District (Murnita et al.
, 2.
, fermented rice straw for cattle feed in the Ukhawah Sejahatera Farmer Group .
and Sapue Pak at .
ivestock secto.
in Reuleut Timu Village.
Muara Batu District.
North Aceh (Handayani et al.
, 2.
Thus, the feed concentration index is one way to determine the level of production of the availability of rice plant waste produced by the farmer group.
So actual data will be obtained and can be the basis for improving and developing ruminants in the Salo Urban Village.
Watang Sawitto District.
Pinrang Regency.
Based on the description above, the author aims to provide a study of the capability of rice plant waste sourced from the feed concentration index in farmer groups in Salo Urban Village.
Materials and Methods This type of observational research uses a descriptive-analytic research design in Salo Urban Village.
Watang Sawitto District.
Pinrang Regency.
South Sulawesi Province, in January 2021.
Data on sex and age in each farmer group were obtained through surveys and interviews using cluster random sampling based on farmer groups in Salo Urban Village (Sugiyono, 2.
, while the performance analysis of ruminants in the last five years for Salo Urban Village by calculating the growth rate, namely the livestock population for each ruminant livestock using a population development model using a simple linear regression model in the form of an equation (Suyono, 2.
, by formula:
In (Y) = a bt Information:
In (Y) : Livestock performance is the number of livestock population : Constant variable : Coefficient of linear regression : Period of year Furthermore, the economic density of livestock can be measured based on the number of ruminant livestock populations in the Salo Urban Village (AU) in 1000 inhabitants (Ashari et al.
The Economic Density = x 1000 Information :
: The number of ruminant livestock population (AU) : The total population in the Salo Urban Village The criteria used for ruminants in livestock units are very dense >300, dense 100-300, moderate 50-100, and rarely <50.
The FCI (Feed Concentration Inde.
data uses rice straw conversion values based on dry matter production in each region (Mariam and Syamsu, 2.
The Feed Concentration Index (FCI), according to Mariam and Syamsu .
calculated using the following formula:
FCI =
Information :
e : Production of rice plant waste .
ry fee.
in each farmer group f : Average production of rice plant waste .
ry matte.
in farmer groups The criteria for calculating the Feed Concentration Index (FCI) are high production categories (> .
, medium .
Ae .
, and low (< .
Results and Discussion Characteristics by gender and age infarmergroups Data were collected from as many as 23 farmer groups in Salo Urban Village.
The Surya et al.
The Capability of Rice Plant Waste Sourced from the Feed Concentration Index characteristics by gender and age can see in Figures 1 and 2.
Figure 1.
Characteristics by gender in farmer groups in Salo Urban Village.
Based on Figure 1, the farmer groups in Salo Urban Village are 1.
077 members of the 23 existing farmer groups, where the number of males is 937 people .
%) and females 140 people .
%).
The highest number of members was in the Sipatokkong II farmer group, with as many as 116 people .
onsisting of 97 males and 19 female.
, and the lowest was in the Tepo I Baru farmer group .
omposed of 18 males and one femal.
It shows that male members of farmer groups dominate more than females.
According to Burton .
, that studies related to the influence of gender in agriculture, especially in agricultural mechanization and decision makers or direct descent .
hysical factor.
as workers on agricultural land, are more dominant carried out by male farmers than female The male farmer as the head of the household significantly impacts the socioeconomic economy of agriculture, thus providing sufficient space for farmers to follow the direction of changes related to agricultural strategies, which belief to increase agricultural land production.
According to (Nurmayasari et al.
, 2.
, men generally dominate access and control in paddy rice farming activities.
Another research (Mulyaningsih et al.
, 2.
show significant participation differences between male and female farmers in planning and implementation, where male farmers are in the high category while female farmers are in the low category.
According to Mara et al.
several factors influence farmers' behaviour: age, gender, education level, use or non-use of certain areas, life experience, and environment.
Farmers are implementers in the agricultural sector (Zhou et al.
, 2.
and the decision-makers in the agricultural chain (Burli et al.
, 2.
who have implemented a membership system with farmer groups as their unit (Tan et al.
, 2.
to encourage sustainable agriculture that contributes to the farmer's economy (Paulus et al.
, 2.
where farmers have the opportunity to improve the economy by processing their agricultural products independently (Rahmat et al.
, 2.
So that with the existence of farmer groups, farmers can run their farming businesses together to improve and develop farming businesses that members and their farmer groups run (Octafany et al.
, 2.
Farmer groups in Salo Urban Village range in age from 22 to 77 years.
The distribution of respondents according to age characteristics shows that most of the respondents are in the productive category.
The relationship between agricultural land and farmer age on agricultural production (Kreft et al.
, 2.
is a study of agricultural land ownership and governance in reviewing farmers' characteristics as decisionmakers.
One of the variables that have an impact on productivity is the age factor, where the productive age generally has a higher level of productivity compared to old age, where this by physical limitations that begin to decline and are limited (Aprilyanti, 2.
Badan Pusat Statistik .
categorizes age into three categories, namely 0 - 14 years old .
ot yet productive categor.
, 15 - 64 years old .
roductive categor.
, and age over 65 years old .
nproductive categor.
Based on Figure 2, it is that the characteristics according to age in the Salo Urban Village farmer group consist of 2 categories, namely the productive category for those aged 15 64 years old .
,24%) and the unproductive category for those aged over 65 years old .
,76%).
This is by Novita et al.
opinion that farmers of productive age will more easily understand the latest things in farming to advance the production of lowland rice managed by these According to Leite et al.
, that different age groups will have different views as The productive age category has a better physical and workforce in managing agricultural businesses and relatively influences the growth and development of competence and better and advanced agricultural understanding (Mahananto et al.
, 2.
While, the unproductive age category still exists in the Salo Urban Village farmer groups, although the number is relatively small because these farmers still have to work to earn income, and there is no regeneration of farmers to shift their duties as farmers.
Understanding the productive age factor is related to physical characteristics, motivation, expertise, and level of adoption so that it can provide a reference for farmers as policymakers to increase productivity on managed agricultural land.
The age of the farmer correlate with the sustainability of farming and productivity at work (Anwar and Prasetyowati, 2021.
Hapsari et al.
, 2.
Research by Sulistijo and Rosnah .
related to age is an important factor in determining the success of a farming business, where age will affect the efficiency of a business.
As actors in the agricultural sector, farmers influence by various variables, namely the individual level, such as gender and age.
The livestock performance Analysis of the performance value of ruminants .
attle and goa.
in the last five years in Salo Urban Village by calculating the growth rate of the ruminant population, as shown in Figure 3.
It appears that the increase in the number of ruminant livestock populations .
attle and goa.
Surya et al.
The Capability of Rice Plant Waste Sourced from the Feed Concentration Index Figure 2.
Characteristics by age in farmer groups in Salo Urban Village.
Figure 3.
The growth rate of the ruminant livestock population in Salo Village.
follows the livestock performance equation, namely In (Y) = -348.
18t with a growth rate for cattle of 18% and In (Y) = -340.
38 0,17t with a growth rate of 17% for goat.
During the last three years, the cattle population has grown by 19,29% and goats by 4,22% in Watang Sawitto District.
Pinrang Regency (Badan Pusat Statistik Kabupaten Pinrang, 2.
, so it has the potential to be developed (Thinnabut et al.
, 2.
and become one of the contributors to livelihoods in rural areas as producers of meat, milk and leather (King et al.
Agricultural and livestock development is a priority to stimulate overall economic growth and play a role in food security.
Livestock populations can increase or decrease due to the effects of death from disease (Brock et al.
, 2.
or the sale or slaughter of livestock.
This, of course, has a significant impact on the animal needs of society (Quan et al.
, 2.
The economic density of livestock The economic density of ruminants in Salo Urban Village is in the rare category, namely 37.
ST for beef cattle and 29.
27 ST for goats per thousand inhabitants (Table .
These results indicate that the economic density of beef cattle and goats in Salo Urban Village is rare compared to the population.
According to Mariam and Syamsu .
, if the economic density of livestock in an area is in the sparse category, it means that there is no competition between livestock and residents in an area that is in the moderate and Surya et al.
The Capability of Rice Plant Waste Sourced from the Feed Concentration Index sparse category in terms of providing food, so the cost of feed for livestock needs is relatively cheap.
Knowing the economic density of livestock will provide an overview of the number of livestock owned by breeders in the area, making it possible to develop populations.
The nature of livestock production significantly influences the economy (Wetlesen et al.
, 2.
in the economic index to present livestock value (Souza et al.
, 2.
Livestock economics refers to the many actors, organizations and processes that form a complex and interrelated network from production to consumption and waste treatment.
Raised livestock directly affects costs and income (Amaya et al.
, 2.
It correlates with a food system derived from animal protein (Pizarro et al.
, 2.
concerning humans, livestock and the environment, which includes several factors, namely the socioeconomic condition, population structure, science and technology (Whatford et al.
, 2.
The production of rice plant waste Rice plant waste is one of the wastes widely used as animal feed in the form of rice straw.
The production of rice plant waste in the Salo Urban Village farmer group can see in Tabel 2.
Rice derived from rice plants is the essential food crop in terms of area harvested, production and consumer preferences (Kumar et al.
, 2.
The harvested area of rice plants in 23 farmer groups in Salo Urban Village is 861,87 Ha, with an average of 39,18 Ha/farmer groups.
Rice fields are semi-natural land designated as rice planting land (Osawa et al.
, 2.
The factors that affect the harvested area of rice include varieties, climatic conditions, handling before and after harvest, and technical maintenance integrated management (Muller et al.
, 2.
The results showed that the fresh production of rice plant waste in the Salo Urban Village farmer group was 10.
247,63 tons with an average of 465,80 tons.
the dry production of rice plant waste was 5.
800,39 tons with an average of 263,65 tons.
and dry matter production of rice plant waste was 5.
136,75 tons with an average of 233,49 In maximizing agricultural and livestock collaboration need where this method consolidates livestock and crops such as rice plant waste or other crops based on the potential of each region.
Furthermore, agricultural waste has more value as a potential raw material as animal feed (Babu et al.
According to Kleinpeter et al.
, that is, the integration of livestock with agricultural waste as animal feed must consider system efficiency, process efficiency, and circularity parameters, which also strengthen the integration component of livestock and agricultural waste.
Therefore, the systematic development of technology in selecting the best feed formulation from rice plant waste is crucial to overcome the design of livestockagriculture integration systems globally through multi-objective approaches in terms of economic, social, environmental, and so on.
Table 1.
The economic density of livestock in Salo Urban Village Livestock Population (AU) Cattle Goat Source: Primary data processed .
Livestock Type Number of Population (Perso.
The Economic Density of Livestock Category Rarely Rarely Table 2.
The production of rice plant waste in the Salo Urban Village Farmer group name Rice plant harvest (H.
Aju Bissu Aka Banga Banga Walie Banga Walie I Boriangin Boriangin I Mamminasae Mamminasae I Mamminasae II Sipakaenre Sipakaenre Muda Sipakainga Labakuang Sipakainga Lariango Sipakainga i Sipatokkong Sipatokkong I Sipatokkong II Sipatuo Teppo I Teppo I Baru Teppo II Teppo II Dotta Total Average Source: Primary data processed .
Fresh production of rice plant (To.
Dry production of rice plant (To.
Dry matter production (To.
Surya et al.
The Capability of Rice Plant Waste Sourced from the Feed Concentration Index The feed concentration index The value of the Feed Concentration Index (FCI) of rice plant waste in the Salo Urban Village Farmers Group can see in Table 3.
Table 3 shows that the feed concentration index in the 23 farmer groups in Salo Urban Village consists of 3 categories, namely the high production category .
farmer grou.
, the medium production category .
farmer group.
, and the low production category .
farmer group.
The feed concentration index is related to the production of agricultural waste originating from available agricultural residues, easily and cheaply obtained by farmers, such as rice straw, which is very abundant in the harvest Table 3.
The Feed Concentration Index in Farmer Groups in Salo Urban Village Farmer group name
FCI
Aju Bissu Aka Banga Banga Walie Banga Walie I Boriangin Boriangin I Mamminasae Mamminasae I Mamminasae II Sipakaenre Sipakaenre Muda Sipakainga Labakuang Sipakainga Lariango Sipakainga i Sipatokkong Sipatokkong I Sipatokkong II Sipatuo Teppo I Teppo I Baru Teppo II Teppo II Dotta Source: Primary data processed .
Category Medium Medium Low Low Low Medium Low Low Low Low Low Low Low Medium Medium Low Low High Medium Low Low Low Low The capacity of rice plant waste as an alternative feed can be used as a solution regarding the availability of feed to increase the population of ruminants (Eoh and Kayadoe, 2.
However, the provision of rice plant waste as animal feed is not optimal because of the low crude fiber content of 32% - 40%, the low crude protein content ranging from 3% - 4%, and the low digestibility rate of 35% - 37% .
e Lima and Latupeirissa.
Therefore, feed technology is needed in animal feed formulation to produce good-quality feed (Widyanti et al.
, 2.
The results obtained on rice plant waste's production capability are insufficient for ruminant animal feed needs because the dominant feed concentration index value is in a low category.
For this reason, it is necessary to use other local ingredients as an alternative to ruminant animal Conclusions There are 23 farmer groups in Salo Urban Village.
Watang Sawitto District.
Pinrang Regency.
South Sulawesi Province, which are dominated by men and are generally in the productive age The average harvested area is 39,18 Ha/farmer group.
with fresh production of rice plant waste being 465,80 tons.
dry production of rice plant waste being 263,65 tons.
and dry matter production being 233,49 tons.
Then the growth rate of ruminants increased by 18% for beef cattle and 17% for goats and has a very dense livestock economic density.
The feed concentration index obtained 3 categories, namely high production category .
farmer grou.
, medium production category .
farmer group.
and low production category .
farmer group.
Shows that rice plant waste harvested from farmer groups in Salo Urban Village can be used as a ruminant feed source.
For this reason, the development of ruminant livestock in Salo Urban Village can be carried out by looking at the potential of rice plant waste in the area.
addition, it is also necessary to take advantage of the potential of other agricultural wastes, such as corn plant waste, as an alternative to ruminant animal feed.
References