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Evaluasi Potensi Produksi dan Kualitas Tumbuhan Penutup Tanah sebagai Hijauan Pakan di Bawah Naungan Perkebunan di Jawa Barat

Jurnal Ilmu Nutrisi dan Teknologi Pakan Pub Date : 2020-04-30 DOI:10.29244/jintp.v18i1.30283
Nur Rochmah Kumalasari, Sunardi, L. Khotijah, L. Abdullah
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In each area, there were selected 10 plots for plant identification with sample size was 50 cm x 50 cm.  Biomass production and nutrient quality was sampled through 3 plots with sample size was 100 cm x 100 cm, forage was harvested and weighed then analyzed by proximate analysis.  Diversity and biomass production were analyzed by R 3.6.2 software through Analysis of Variance(ANOVA) based on environment differences, then the significant results analyzed by LSD Test.   The results showed that the highest biomass was sampled in Bogor i.e. 359 g m‑2 ±164.08 g m‑2 fresh weight and 71.22 g m‑2 ±45.91 g m-2 dry weight. Cover crop diversity varied around two to 32 species with percentage of area cover around 10-90%.  Potential plants as forage were Panicum repens (lempuyangan), Paspalum conjugatum (jukut pahit) and Asystasia gangetica (ara sungsang).  Dry matter content of composite forage was 18.3%-31.6%, crude protein was 4.57%-10.8%, crude fiber was 21.3%-25.7% and ashreached 11.2%-15.9%.  It can be concluded that cover crop under plantation have potency to supply forage, especially in Bogor, however concentrate addition is needed to fulfil nutrient animal requirement due to the low quality forage. \nKey words:          biomass, cover drop, diversity, nutrient, plantation \n  \nDAFTAR PUSTAKA \nAdriadi A, Chairul & Solfiyeni. 2012. Analisis vegetasi gulma pada perkebunan kelapa sawit (Elais quineensis Jacq.) di Kilangan, Muaro Bulian, Batang Hari.  Jurnal Biologi Universitas Andalas. 1(2): 108-115 \nAdigun OS, Okeke EN, Makinde OJ & Umunna MO. 2014. Effect of replacing wheat offal with Asystasia gangetica Leaf Meal (ALM) on growth performance and haematological parameters of weaner rabbits. Greener Journal of Agricultural Sciences. 4 (1): 009-014 \nAlviyani. 2013. Analisis potensi dan pemanfaatan hijauan pakan pada peternakan domba rakyat Desa Randobawa Ilir, Kecamatan Mandirancan, Kabupaten Kuningan, Jawa Barat. [Skripsi]. Bogor (ID): Institut Pertanian Bogor \nAsbur Y, Yahya S, Murtilaksono K, Sudradjat & Sutarta ES. 2015. Study of Asystasia gangetica (L.) Anderson utilization as cover crop under mature oil palm with different ages. International Journal of Sciences: Basic and Applied Research. 19 (2): 137-148 \nDarmijati S & Syarifuddin AK. 2002. Pengaruh musim tanam terhadap hasil kacang tanah di tipe agroklimat B dan C.  Jurnal Agromet. 16 (1-2): 37-48 \nDaru TP, Yulianti A & Widodo E. 2014. Potensi hijauan di perkebunan kelapa sawit sebagai pakan sapi potong di Kabupaten Kutai Kartanegara. Pastura. 3: 94-98. \nHamdan MA. 2012. Potensi hijauan lokal pesisir pantai bagi ternak ruminansia di Desa Mangunlegi Kecamatan Batangan Kabupaten Pati [Tesis]. Bogor (ID): Institut Pertanian Bogor \nHerilimiansyah, Kumalasari NR & Abdullah L. 2019. Evaluasi sistem budidaya tanaman Asystasia gangetica T. Anderson yang ditanam dengan jarak berbeda di bawah naungan kelapa sawit. Jurnal Ilmu Nutrisi dan Teknologi Pakan. 17(1): 6-10. \nJiju V, Gorantla M & Chamundeeswari D. 2013. Evaluation of anthelmintic activity of methanolic extract of Asystasia gangeticum. International Journal of Pharmacyand Life Science. 4 (6): 2727-2730 \nMildaerizanti. 2014. Integrasi sapi sawit dan potensinya dalam mendukung pertanian berkelanjutan di Muaro Jambi. Palembang (ID): Prosiding Seminar Nasional. Badan Litbang Pertanian. \nNaidu VSGR. 2012. Handbook on Weed Identification. Directorate of Weed Science Research. Jabalpur (IN): Indian Council of Agricultural Research. \n[NRC] National Research Council. 2000. Nutrient Requirements of Beef Cattle. Seventh Revised Edition: Update 2000. Washington (US): The National Academies Press \nNorlindawati AP, Haryani H, Sabariah B, Noor MI, Samijah A, Supie MJ & Edham ZW. 2019. Chemical composition of weeds as potential forage in integrated farming. Malaysian Journal of Veterinary Research. 10 (2): 19–24 \nPrasetyo H & Zaman S. 2016. Pengendalian gulma perkebunan kelapa sawit (Elaeis guineensis Jacq.) di Perkebunan Padang Halaban, Sumatera Utara. Buletin Agrohorti. 4 (1): 87-93 \nRamdani D, Abdullah L & Kumalasari NR. 2017. Analisis potensi hijauan lokal pada sistem integrasi sawit dengan ternak ruminansia di Kecamatan Mandau Kabupaten Bengkalis Provinsi Riau. Buletin Makanan Ternak. 104 (1): 1-8 \nSari HFM & Rahayu SSB. 2013. Jenis-Jenis gulma yang ditemukan di perkebunan karet (Hevea brasiliensis Roxb.) Desa Rimbo Datar Kabupaten 50 Kota Sumatera Barat.  Jurnal Ilmiah Biologi: BIOGENESIS. 1(1): 28-32 \nSetiawan E. 2009. Kajian hubungan unsur iklim terhadap produktivitas cabe jamu (Piper retrofractum Vahl) di Kabupaten Sumenep. AGROVIGOR: Jurnal Agroekoteknologi. 2(1): 1-7 \nSisriyeni D & Soetopo D. 2005.  Potensi, peluang dan tantangan pengembangan integrasi sapi-sawit di Provinsi Riau. Pekanbaru (ID): Lokakarya Pengembangan Sistem Integrasi Kelapa Sawit-Sapi. Balai Pengkajian Teknologi Pertanian Riau. \nSyahputra E, Sarbino & Dian S. 2011. Weeds assessment di perkebunan kelapa sawit lahan gambut. Jurnal Perkebunan  & Lahan Tropika. 1: 37-42 \nTilloo SK, Pande VB, RasalaTM, & Kale VV. 2012. Asystasia gangetica: Review on multipotential application. International Research Journal of Pharmacy. 3 (4): 18-20 \nUtomo BN & Widjaja E. 2012. Pengembangan sapi potong berbasis industri perkebunan kelapa sawit. Jurnal Penelitian dan Pengembangan Pertanian.  31 (4) : 153-161 \nWiyono DB, Affandhy L, Rasyid A. 2003. Integrasi Ternak dengan Perkebunan Kelapa Sawit.  Bogor (ID): Prosiding Lokakarya Nasional Sistem Integrasi Kelapa Sawit-Sapi. Pusat Penelitian dan Pengembangan Peternakan \nWigati S, Maksudi & Wiyanto E. 2016. The use of rubber leaves (Hevea brasiliensis) as forage in supporting the development of goats. Bogor (ID):  Proceeding of International Seminar on Livestock Production and Veterinary Technology. 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引用次数: 3

Abstract

Cover crop diversity under plantation area has potency to supply forage for animal farming. The research aim was to evaluate cover crop vegetation and to estimate plant production and quality under plantation at West Java. This research was conducted from May 2018 to April 2019 at public and private company around Bogor, Banten, Kuningan and Garut. In each area, there were selected 10 plots for plant identification with sample size was 50 cm x 50 cm.  Biomass production and nutrient quality was sampled through 3 plots with sample size was 100 cm x 100 cm, forage was harvested and weighed then analyzed by proximate analysis.  Diversity and biomass production were analyzed by R 3.6.2 software through Analysis of Variance(ANOVA) based on environment differences, then the significant results analyzed by LSD Test.   The results showed that the highest biomass was sampled in Bogor i.e. 359 g m‑2 ±164.08 g m‑2 fresh weight and 71.22 g m‑2 ±45.91 g m-2 dry weight. Cover crop diversity varied around two to 32 species with percentage of area cover around 10-90%.  Potential plants as forage were Panicum repens (lempuyangan), Paspalum conjugatum (jukut pahit) and Asystasia gangetica (ara sungsang).  Dry matter content of composite forage was 18.3%-31.6%, crude protein was 4.57%-10.8%, crude fiber was 21.3%-25.7% and ashreached 11.2%-15.9%.  It can be concluded that cover crop under plantation have potency to supply forage, especially in Bogor, however concentrate addition is needed to fulfil nutrient animal requirement due to the low quality forage. Key words:          biomass, cover drop, diversity, nutrient, plantation   DAFTAR PUSTAKA Adriadi A, Chairul & Solfiyeni. 2012. Analisis vegetasi gulma pada perkebunan kelapa sawit (Elais quineensis Jacq.) di Kilangan, Muaro Bulian, Batang Hari.  Jurnal Biologi Universitas Andalas. 1(2): 108-115 Adigun OS, Okeke EN, Makinde OJ & Umunna MO. 2014. Effect of replacing wheat offal with Asystasia gangetica Leaf Meal (ALM) on growth performance and haematological parameters of weaner rabbits. Greener Journal of Agricultural Sciences. 4 (1): 009-014 Alviyani. 2013. Analisis potensi dan pemanfaatan hijauan pakan pada peternakan domba rakyat Desa Randobawa Ilir, Kecamatan Mandirancan, Kabupaten Kuningan, Jawa Barat. [Skripsi]. Bogor (ID): Institut Pertanian Bogor Asbur Y, Yahya S, Murtilaksono K, Sudradjat & Sutarta ES. 2015. Study of Asystasia gangetica (L.) Anderson utilization as cover crop under mature oil palm with different ages. International Journal of Sciences: Basic and Applied Research. 19 (2): 137-148 Darmijati S & Syarifuddin AK. 2002. Pengaruh musim tanam terhadap hasil kacang tanah di tipe agroklimat B dan C.  Jurnal Agromet. 16 (1-2): 37-48 Daru TP, Yulianti A & Widodo E. 2014. Potensi hijauan di perkebunan kelapa sawit sebagai pakan sapi potong di Kabupaten Kutai Kartanegara. Pastura. 3: 94-98. Hamdan MA. 2012. Potensi hijauan lokal pesisir pantai bagi ternak ruminansia di Desa Mangunlegi Kecamatan Batangan Kabupaten Pati [Tesis]. Bogor (ID): Institut Pertanian Bogor Herilimiansyah, Kumalasari NR & Abdullah L. 2019. Evaluasi sistem budidaya tanaman Asystasia gangetica T. Anderson yang ditanam dengan jarak berbeda di bawah naungan kelapa sawit. Jurnal Ilmu Nutrisi dan Teknologi Pakan. 17(1): 6-10. Jiju V, Gorantla M & Chamundeeswari D. 2013. Evaluation of anthelmintic activity of methanolic extract of Asystasia gangeticum. International Journal of Pharmacyand Life Science. 4 (6): 2727-2730 Mildaerizanti. 2014. Integrasi sapi sawit dan potensinya dalam mendukung pertanian berkelanjutan di Muaro Jambi. Palembang (ID): Prosiding Seminar Nasional. Badan Litbang Pertanian. Naidu VSGR. 2012. Handbook on Weed Identification. Directorate of Weed Science Research. Jabalpur (IN): Indian Council of Agricultural Research. [NRC] National Research Council. 2000. Nutrient Requirements of Beef Cattle. Seventh Revised Edition: Update 2000. Washington (US): The National Academies Press Norlindawati AP, Haryani H, Sabariah B, Noor MI, Samijah A, Supie MJ & Edham ZW. 2019. Chemical composition of weeds as potential forage in integrated farming. Malaysian Journal of Veterinary Research. 10 (2): 19–24 Prasetyo H & Zaman S. 2016. Pengendalian gulma perkebunan kelapa sawit (Elaeis guineensis Jacq.) di Perkebunan Padang Halaban, Sumatera Utara. Buletin Agrohorti. 4 (1): 87-93 Ramdani D, Abdullah L & Kumalasari NR. 2017. Analisis potensi hijauan lokal pada sistem integrasi sawit dengan ternak ruminansia di Kecamatan Mandau Kabupaten Bengkalis Provinsi Riau. Buletin Makanan Ternak. 104 (1): 1-8 Sari HFM & Rahayu SSB. 2013. Jenis-Jenis gulma yang ditemukan di perkebunan karet (Hevea brasiliensis Roxb.) Desa Rimbo Datar Kabupaten 50 Kota Sumatera Barat.  Jurnal Ilmiah Biologi: BIOGENESIS. 1(1): 28-32 Setiawan E. 2009. Kajian hubungan unsur iklim terhadap produktivitas cabe jamu (Piper retrofractum Vahl) di Kabupaten Sumenep. AGROVIGOR: Jurnal Agroekoteknologi. 2(1): 1-7 Sisriyeni D & Soetopo D. 2005.  Potensi, peluang dan tantangan pengembangan integrasi sapi-sawit di Provinsi Riau. Pekanbaru (ID): Lokakarya Pengembangan Sistem Integrasi Kelapa Sawit-Sapi. Balai Pengkajian Teknologi Pertanian Riau. Syahputra E, Sarbino & Dian S. 2011. Weeds assessment di perkebunan kelapa sawit lahan gambut. Jurnal Perkebunan  & Lahan Tropika. 1: 37-42 Tilloo SK, Pande VB, RasalaTM, & Kale VV. 2012. Asystasia gangetica: Review on multipotential application. International Research Journal of Pharmacy. 3 (4): 18-20 Utomo BN & Widjaja E. 2012. Pengembangan sapi potong berbasis industri perkebunan kelapa sawit. Jurnal Penelitian dan Pengembangan Pertanian.  31 (4) : 153-161 Wiyono DB, Affandhy L, Rasyid A. 2003. Integrasi Ternak dengan Perkebunan Kelapa Sawit.  Bogor (ID): Prosiding Lokakarya Nasional Sistem Integrasi Kelapa Sawit-Sapi. Pusat Penelitian dan Pengembangan Peternakan Wigati S, Maksudi & Wiyanto E. 2016. The use of rubber leaves (Hevea brasiliensis) as forage in supporting the development of goats. Bogor (ID):  Proceeding of International Seminar on Livestock Production and Veterinary Technology. Pusat Penelitian dan Pengembangan Pertanian
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人工区覆盖作物多样性具有为畜牧业提供饲料的潜力。研究的目的是评价西爪哇人工林覆盖作物植被,评价人工林下植物产量和质量。这项研究于2018年5月至2019年4月在茂物、万丹、库宁安和加鲁特附近的公共和私营公司进行。每个区选择10块样地进行植物鉴定,样本量为50 cm × 50 cm。选取3个样地,样本量为100 cm × 100 cm,取样生物量和养分质量,收获牧草后称重,采用近似分析法进行分析。基于环境差异,采用r3.6.2软件对多样性和生物量进行方差分析(ANOVA),并对显著性结果进行LSD检验。结果表明,茂物的生物量最高,为鲜重359 g m-2±164.08 g m-2,干重71.22 g m-2±45.91 g m-2。覆盖作物多样性约为2 ~ 32种,覆盖面积百分比约为10 ~ 90%。有潜力作为饲料的植物有大头菜(Panicum repens, lempuyangan)、雀稗(Paspalum conjugatum, jukut pahit)和Asystasia gangetica (ara sunsang)。复合饲料干物质含量为18.3% ~ 31.6%,粗蛋白质含量为4.57% ~ 10.8%,粗纤维含量为21.3% ~ 25.7%,灰分含量为11.2% ~ 15.9%。综上所述,人工林覆盖作物具有提供饲料的潜力,特别是在茂物,但由于饲料质量较低,需要添加精料来满足动物对营养物质的需求。关键词:生物量,覆盖度下降,多样性,养分,人工林。Kilangan, Muaro Bulian, Batang Hari.植物分析。李建军,张建军,张建军,等。2014.安徽农业大学学报(生物科学版),1(2):108-115。用散叶草粉替代小麦内脏对断奶兔生长性能和血液学参数的影响。林志强。2013.绿色农业学报,41(1):009-014。分析潜能dan pemanfaatan hijauan pakan padpeternakan domba rakyat Desa Randobawa Ilir, Kecamatan Mandirancan, Kabupaten Kuningan, Jawa Barat。[Skripsi]。茂物(ID): Pertanian Bogor Asbur Y, Yahya S, Murtilaksono K, Sudradjat & Sutarta ES。2015. gangetica (L.)的研究不同树龄油棕作为覆盖作物的利用。李建军,张建军,张建军。基于微信号的微信号处理技术研究进展[j] .光子学报,2016,36(2):387 - 398。2002. 李建军,张建军,张建军,等。2014.中国农业科学进展与展望。potsi hijauan di perkebunan kelapa看到sebagai pakan sapi potong di Kabupaten Kutai Kartanegara。畜牧学报,3:94 -98。哈姆丹马。2012. potsi hijauan地方总统pantai bagi ternak ruminsia di Desa Mangunlegi Kecamatan Batangan Kabupaten Pati [Tesis]。茂物(ID): Pertanian Bogor Herilimiansyah, Kumalasari NR & Abdullah L. 2019。评价系统的建立与发展与发展[j] .安德森,杨迪丹,邓,贾拉克,巴瓦,南,克拉帕,等。中国生物医学工程学报,2017(1):6-10。Jiju V, Gorantla M, Chamundeeswari D. 2013。无尾藤甲醇提取物的驱虫活性评价。中国生物医学工程学报,2014,35(6):727- 730。Integrasi sapi see with dan potensinya dalam mendukung pertanian berkelanjutan di Muaro Jambi。巨港(ID):全国项目研讨会。Badan Litbang Pertanian。Naidu VSGR。2012. 杂草鉴别手册。杂草科学研究理事会。贾巴尔普尔(印度):印度农业研究委员会。[NRC]国家研究委员会。2000。肉牛的营养需求。第七修订版:2000年更新。华盛顿(美国):国家科学院出版社Norlindawati AP, Haryani H, Sabariah B, Noor MI, Samijah A, Supie MJ和Edham ZW。2019. 综合农业中潜在牧草杂草的化学成分分析。李建军,张建军,张建军,等。2016.中国动物医学杂志,32(2):319 - 324。Pengendalian gulma perkebunan kelapa sawit (Elaeis guineensis Jacq.) di perkebunan Padang Halaban,苏门答腊北部。刘建军,张建军,张建军,等。2017.中国农业科学,41(1):87-93。廖内省本加利省区域疫病系统整合潜力分析——以登革热为例。科学通报,2004(1):1-8。2013. 巴西橡胶树(Hevea brasiliensis Roxb)Desa Rimbo Datar Kabupaten 50 Kota sumata Barat。生物学杂志:BIOGENESIS。李建军。2009.(1):28-32。Kajian hubungan unsur iklim terhadap productivitas cabe jamu (Piper retrofracture Vahl) di Kabupaten Sumenep。杨建军,张建军,张建军。植物遗传多样性的研究进展[j] .植物遗传学报,2014(1):1-7。 人工区覆盖作物多样性具有为畜牧业提供饲料的潜力。研究的目的是评价西爪哇人工林覆盖作物植被,评价人工林下植物产量和质量。这项研究于2018年5月至2019年4月在茂物、万丹、库宁安和加鲁特附近的公共和私营公司进行。每个区选择10块样地进行植物鉴定,样本量为50 cm × 50 cm。选取3个样地,样本量为100 cm × 100 cm,取样生物量和养分质量,收获牧草后称重,采用近似分析法进行分析。基于环境差异,采用r3.6.2软件对多样性和生物量进行方差分析(ANOVA),并对显著性结果进行LSD检验。结果表明,茂物的生物量最高,为鲜重359 g m-2±164.08 g m-2,干重71.22 g m-2±45.91 g m-2。覆盖作物多样性约为2 ~ 32种,覆盖面积百分比约为10 ~ 90%。有潜力作为饲料的植物有大头菜(Panicum repens, lempuyangan)、雀稗(Paspalum conjugatum, jukut pahit)和Asystasia gangetica (ara sunsang)。复合饲料干物质含量为18.3% ~ 31.6%,粗蛋白质含量为4.57% ~ 10.8%,粗纤维含量为21.3% ~ 25.7%,灰分含量为11.2% ~ 15.9%。综上所述,人工林覆盖作物具有提供饲料的潜力,特别是在茂物,但由于饲料质量较低,需要添加精料来满足动物对营养物质的需求。关键词:生物量,覆盖度下降,多样性,养分,人工林。Kilangan, Muaro Bulian, Batang Hari.植物分析。李建军,张建军,张建军,等。2014.安徽农业大学学报(生物科学版),1(2):108-115。用散叶草粉替代小麦内脏对断奶兔生长性能和血液学参数的影响。林志强。2013.绿色农业学报,41(1):009-014。分析潜能dan pemanfaatan hijauan pakan padpeternakan domba rakyat Desa Randobawa Ilir, Kecamatan Mandirancan, Kabupaten Kuningan, Jawa Barat。[Skripsi]。茂物(ID): Pertanian Bogor Asbur Y, Yahya S, Murtilaksono K, Sudradjat & Sutarta ES。2015. gangetica (L.)的研究不同树龄油棕作为覆盖作物的利用。李建军,张建军,张建军。基于微信号的微信号处理技术研究进展[j] .光子学报,2016,36(2):387 - 398。2002. 李建军,张建军,张建军,等。2014.中国农业科学进展与展望。potsi hijauan di perkebunan kelapa看到sebagai pakan sapi potong di Kabupaten Kutai Kartanegara。畜牧学报,3:94 -98。哈姆丹马。2012. potsi hijauan地方总统pantai bagi ternak ruminsia di Desa Mangunlegi Kecamatan Batangan Kabupaten Pati [Tesis]。茂物(ID): Pertanian Bogor Herilimiansyah, Kumalasari NR & Abdullah L. 2019。评价系统的建立与发展与发展[j] .安德森,杨迪丹,邓,贾拉克,巴瓦,南,克拉帕,等。中国生物医学工程学报,2017(1):6-10。Jiju V, Gorantla M, Chamundeeswari D. 2013。无尾藤甲醇提取物的驱虫活性评价。中国生物医学工程学报,2014,35(6):727- 730。Integrasi sapi see with dan potensinya dalam mendukung pertanian berkelanjutan di Muaro Jambi。巨港(ID):全国项目研讨会。Badan Litbang Pertanian。Naidu VSGR。2012. 杂草鉴别手册。杂草科学研究理事会。贾巴尔普尔(印度):印度农业研究委员会。[NRC]国家研究委员会。2000。肉牛的营养需求。第七修订版:2000年更新。华盛顿(美国):国家科学院出版社Norlindawati AP, Haryani H, Sabariah B, Noor MI, Samijah A, Supie MJ和Edham ZW。2019. 综合农业中潜在牧草杂草的化学成分分析。李建军,张建军,张建军,等。2016.中国动物医学杂志,32(2):319 - 324。Pengendalian gulma perkebunan kelapa sawit (Elaeis guineensis Jacq.) di perkebunan Padang Halaban,苏门答腊北部。刘建军,张建军,张建军,等。2017.中国农业科学,41(1):87-93。廖内省本加利省区域疫病系统整合潜力分析——以登革热为例。科学通报,2004(1):1-8。2013. 巴西橡胶树(Hevea brasiliensis Roxb)Desa Rimbo Datar Kabupaten 50 Kota sumata Barat。生物学杂志:BIOGENESIS。李建军。2009.(1):28-32。Kajian hubungan unsur iklim terhadap productivitas cabe jamu (Piper retrofracture Vahl) di Kabupaten Sumenep。杨建军,张建军,张建军。植物遗传多样性的研究进展[j] .植物遗传学报,2014(1):1-7。
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Jurnal Ilmu Nutrisi dan Teknologi Pakan
Jurnal Ilmu Nutrisi dan Teknologi Pakan
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