Kandungan dan Serapan Mineral Pucuk Indigofera zollingeriana dari Tanaman dengan Kerapatan Tanam Berbeda

Mineral Content and Uptake of Indigofera zollingeriana on Different Planting Densities

  • A Ernawati IPB University
  • L Abdullah Department of Nutrition and Feed Technology, Faculty of Animal Science, Bogor Agricultural University
  • I G Permana Department of Nutrition and Feed Technology, Faculty of Animal Science, Bogor Agricultural University
Keywords: Indigofera zollingeriana, kepadatan tanam, mineral makro, mineral mikro, periode defoliasi

Abstract

This experiment was conducted to evaluate the mineral contents of I. zollingeriana growing with different planting densities. The experiment was conducted in a randomized block design with three different planting densities (8,000 plants per ha, 13,333 plants per ha, and 20,000 plants per ha) and 3 replication. Plant biomass was analyzed for macro and micro mineral contents as well as Ca:P ratio. The results showed that increased planting densities significantly increased (p<0.05) P, Cu, and Cr contents, but decreased Ca and Na contents  had no significant effect  on Mg, K, Mn, Zn and Fe contents. Furthermore, the increased planting densities significantly decreased (p<0.05) uptakes of Ca, K, Mn, and Fe by the plants, but increased (p<0.05) the uptakes of Cu and Cr. Meanwhile, the uptakes of P, K, Na, and Zn were not affected by planting densities. Based on the results of this study, it can be concluded that the planting density of I. zollingeriana should be maintained in 8,000 plants ha-1 to maintain the content and uptake of mineral in forage crops.

Key words:        defoliation periods,          Indigofera zollingeriana, macrominerals, micro minerals, planting density

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References

[Association of Official Agriculture Chemists]. 2002. Official Methods of Analysis of AOAC international. 17th ed. Maryland (USA) : AOAC international

[National Research Council]. 2001. Nutrient Requirements of Dairy Cattle. 7th rev. ed. Washington DC (USA): National Academy Press.

[Soil Research Center]. 1995. Technical Guidelines for Evaluating Soil Fertility. Technical reports No. 14 Versi 1,0.1. REP II Project. Bogor (ID): CSAR.

Abdullah L. 2010. Herbage production and quality of shrub Indigofera treated by different concentrations of foliar fertilizer. Media Peternakan. 33:169-175.

Abdullah L & Suharlina. 2010. Herbage yield and quality of two vegetative parts of Indigofera at different times of first regrowth defoliation. Media Peternakan. 33: 44-49.

Albu A, Pop IM & Radu-rusu C. 2012. Calcium (Ca) and Phosphorus (P) concentration in dairy cow feeds. Seria Zootehnie. 57: 70-74.

Ayan I, Mut H, Onal-Asci O, Basaran U & Acar Z. 2010. Effect of manure application on the chemical composition of rangeland hay. Journal of Animal and Veterinary Advance. 9: 1852-1857.

Banurea DP, Abdullah L & Kumalasari NR. 2017. Evaluation of Indigofera zollingeriana biomass production and crown characteristics at different spacing. Bulletin Makanan Ternak. 104:1-11.

Chen CR, Condron LM & Xu ZH. 2008. Impacts of grassland afforestation with coniferous trees on soil phosphorus dynamics and associated microbial processes: A review. Forest Ecology and Management. 255: 396–409.

Clara C. 2015. The micromineral content of I. zollingeriana leaves with different harvest times. [skripsi]. Bogor (ID): Faculty of Animal Science, Bogor Agricultural University.

Duan AG, Lei J, Xiaoyan H, Jianguo Z, Hailun D, Xiong QZ, Wenfu G & Jianjun S. 2019. Effect of planting density on soil bulk density, ph, and nutrients of unthinned Chinese fir mature stands in the south subtropical region of China. Forests. 10: 351.

Durand M & Kawashima R. 1980. Influence of Mineral in Rumen Microbial Digestion. In: Y. Ruckebusch & P. Thivend (Eds.). Digestive physiology and metabolism in ruminants. MTP Ltd. Lancaster. 275–408.

Farooq TH, Ma X, Rashid MHU, Wu W, Xu J, Tarin MWK, He Z & Wu P. 2019. Impact of stand density on soil quality in Chinese fir (Cunninghamia lanceolata) monoculture. Applied Ecolology and Environmental Research. 17(2):3553-3566.

Guerrero CM, Ramirez RG, Gonzalez RH, Cerrillo AS & Juarez RA. 2012. Mineral content in range forages from northern Mexico. Journal of Applied Animal Research. 40:102-107.

Hammond JP & White PJ. 2008. Sucrose transport in the phloem: integrating root responses to phosphorus starvation. Journal of Experimental Botany. 59:93–109.

Hassen A, Rethman NFG, Apostolides Z & Van-Niekerk WA. 2008. Forage production and potential nutritive value of 24 shrubby Indigofera accessions under field conditions in South Africa. Tropical Grasslands. 42: 96–103.

Hassen A, Rethman NFG, Van-Nierkerk WA & Tjelele TJ. 2007. Influence of season/year and species on chemical composition and in vitro digestability of five Indigofera accessions. Journal of Animal Feed Science and Technology. 136: 312-322.

Herdiawan I & Krisnan R. 2014. Produktivitas dan pemanfaatan tanaman leguminosa pohon Indigofera zollingeriana pada lahan kering. WARTAZOA. 24 (2): 75-82.

Hijjanty BR. 2015. Macro mineral content and uptake of I. zollingeriana leaves due to different harvesting times. [skripsi]. Bogor (ID): Faculty of Animal Science, Bogor Agricultural University.

Hu B, Yang B, Pang X, Bao W & Tian G. 2016. Responses of soil phosphorus fractions to gap size in a reforested spruce forest. Geoderma. 279: 61–69.

Jumba IO, Suttle NF, Hunter EA & Wandiga SO. 1995. Effect of soil origin and mineral composition and herbage species on the mineral composition of forages in the Mount Elgon region of Kenya: Calcium, phosporus, magnesium, and sulphur. Tropical Grasslands. 29: 40-46.

Khalil, Bachtiar A, Evitayani. 2019. Reproductive performance of female kacang goats supplemented by mineral under a tethering feeding system. Tropical Animal Science Journal. 42(3): 215-223.

Khan KS, Joergensen RG. 2015. Response of white mustard (Sinapis alba) and the soil microbial biomass to P and Zn addition in a greenhouse pot experiment. Journal of Plant Nutrition and Soil Science. 178: 834–840.

Kim S, Li G, Han SH, Kim HJ, Kim C, Lee ST & Son Y. 2018. Thinning affects microbial biomass without changing enzyme activity in the soil of Pinus densiflora Sieb. et Zucc. forests after 7 years. Annals of Forest Science. 75: 13 : 1-10.

Kumalasari NR, Wicaksono GP & Abdullah L. 2017. Plant growth pattern, forage yield, and quality of Indigofera zollingeriana influenced by row spacing. Media Peternakan 40 (1):14-19.

Kwak WS, Kim YI, Choi DY & Lee YH. 2016. Effect of feeding mixed microbial culture fortified with trace minerals on ruminal fermentation, nutrient digestibility, nitrogen and trace mineral balance in Sheep. Journal of Animal Science and Technology. 58 (21) : 1-8

Lie ZY, Wang ZM & Xue L. 2017. Effect of density of Tephrosia candida stands on soil characteristics. Legume Research. 3: 551–555.

Mahlangu RIS, Martin MM & Fhatuwani NM. 2019. Growth, yield and mineral content of basil and cultivated rocket due to plant density and nitrogen level. Internatinal Journal of Vegetable Science. 1931-5279.

Mengel K & Kirkby EA. 1978. Principles of Plant Nutrition International. Switzerland (EU): Potash Institute, Bern.

Miller DA & Reetz-JR HF. 1995. Forage fertilization. in: forages. vol 1. an introduction to grassland agriculture. Eds. Barnes RF, Miller DA, Nelson CJlOWA: Lowa State Univ press. 79-91.

Muhtarudin & Liman. 2006. Determination of utilization level of organic mineral to improve rumen bioprocess of goat by In Vitro method. Jurnal Ilmu-ilmu Pertanian Indonesia. 8(2): 132 – 140.

Oberson A, Friesen DK, Rao IM, Buhler S & Frossard E. 2001. Phosphorus transformations in an oxisol under contrasting land-use systems: The role of the soil microbial biomass. Plant Soil. 237: 197–210.

Palupi R, Abdullah L, Astuti DA & Sumiati. 2014. Potential and utilization of Indigofera sp flour as a feed ingredient for soybean meal substitution in laying hens ration. Jurnal Ilmu Ternak dan Veteriner. 19 210-219.

Reitz LL, Smith WH & Plumlee MP. 1960. A Simple Wet Ashing for Biological Materials. West Lafyee (US): Animal Science Department. Purdue University.

Sales JNS, Pereira RVV, Bicalho RC & Baruselli PS. 2011. Effect of injectable copper, selenium, zinc, and manganese on the pregnancy rate of crossbred heifers (Bos indicus × Bos taurus) synchronized for timed embryo transfer. Livestock Science. 142: 59-62.

Salisbury FB & Ross CW. 1995. Plant Physiology - Volume 3. Translation. Bandung (ID): ITB Publisher.

Shao YN, Liu YK & Li YH. 2017. Soil nutrient characteristics in Larix olgensis plantation with different stand densities. Journal of Central South Univercity For Technology. 37: 27–31.

Suharlina, Astuti DA, Nahrowi, Jayanegara A & Abdullah L. 2016a. Nutritional evaluation of dairy goat rations containing Indigofera zollinggeriana by using the invitro rumen fermentation technique (RUSITEC ). Journal of Dairy Science. 11:100-105.

Suharlina, Astuti DA, Nahrowi, Jayanegara A & Abdullah L. 2016b. In Vitro evaluation of concentrate feed containing Indigofera zollingeriana in goat. Journal of The Indonesia Tropical Animal Agriculture. 41(4): 196-203.

Suharlina. 2010. Peningkatan produktivitas Indigofera zollingeriana sebagai pakan berkualitas tinggi melalui aplikasi pupuk organik cair. [Tesis]. Bogor (ID): Sekolah Pascasarjana, Institut Pertanian Bogor.

Tarigan A, Ginting SP, Arief II, Astuti DA & Abdullah L. 2017. Physical quality and digestability in vitro determination of green pellet concentrate based on Indigofera zollingeriana. Jurnal Ilmu Ternak dan Veterinary. 22(3):114-123.

Wang Y, Wang HY, Xu LI, Yang XJ & Liu L. 2014. Soil physical and chemical characteristics of different depths in semi-natural mixed larch-spruce-fir at different stand densities. Pratacultural Science. 8: 1424–1429.

Warly L, Evitayani & Fariani A. 2010. Concentration of Micro minerals in fiber fraction of forages. Word Academy of Scence, Engineering and Technology. 44: 1206-1212.

Whitehead DC. 2000. Nutrient Elements in Grassland: Soilplant-Animal Relationships. UK: CABI, Publishing

Published
2021-08-31
How to Cite
-A. E., Luki Abdullah, & Idat Galih Permana. (2021). Kandungan dan Serapan Mineral Pucuk Indigofera zollingeriana dari Tanaman dengan Kerapatan Tanam Berbeda: Mineral Content and Uptake of Indigofera zollingeriana on Different Planting Densities. Jurnal Ilmu Nutrisi Dan Teknologi Pakan, 19(2), 49-58. https://doi.org/10.29244/jintp.19.2.49-58