THE EFFECTIVENESS OF BAGLOG COMPOST WITH THE ADDITION OF CHICKEN, GOAT, AND COW MANURE ON THE GROWTH AND BIOMASS PRODUCTION OF YARDLONG BEAN (VIGNA SINENSIS L.) PARADE TAVI VARIETY
Yardlong bean is a strategic food commodity that can be cultivated in polybags and is widely consumed by the Indonesian population. One important factor in cultivating yardlong beans is the planting media and fertilization. However, the price of inorganic fertilizers has been increasing year b...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/74994 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Yardlong bean is a strategic food commodity that can be cultivated in polybags and
is widely consumed by the Indonesian population. One important factor in
cultivating yardlong beans is the planting media and fertilization. However, the
price of inorganic fertilizers has been increasing year by year. Additionally, there
is a problem of baglog waste generated from oyster mushroom cultivation, which
amounts to approximately 1 ton and is left to decompose over a period of 3-4
months. Furthermore, baglog waste, which is made from wood powder, contains
nutrients such as total N 0.6%, P 0.7%, K 0.02%, and organic C 49.00%, which can
improve soil fertility. Therefore, one way to utilize baglog waste and reduce the use
of inorganic fertilizers is by using it as a planting medium. However, the C/N ratio
of baglog waste is relatively high, so additional nitrogen sources are needed to
achieve a low C/N ratio. One material that can be used as a nitrogen source is
chicken, goat, and cow manure through composting process. This study aims to
determine the effectiveness of compost made from baglog waste as a planting
medium with the addition of chicken, cow, and goat manure on the growth and
biomass production of yardlong bean (Vigna sinensis L.) plants using a Completely
Randomized Design (CRD) with 4 treatments: MKo = 7 kg baglog waste; MKa =
5 kg baglog waste + 2 kg chicken manure; MKs = 5 kg baglog waste + 2 kg cow
manure; MKk = 5 kg baglog waste + 2 kg goat manure. The data were analyzed
using ANOVA and Duncan's Multiple Range Test. The results of the study showed
that the MKa treatment (baglog waste + chicken manure) yielded the best results
in terms of vegetative, generative, and production parameters. The vegetative
parameters showed that the MKa treatment (baglog waste + chicken manure) had the highest plant height and leaf number, significantly different from other
treatments. The generative parameters indicated that the MKa treatment (baglog
waste + chicken manure) had the best results in terms of flowering age, significantly
different from other treatments, while there were no significant differences in fruit
weight, fruit length, fruit number, shoot-to-root ratio, and moisture content |
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