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All Journal Jurnal Tanaman Industri dan Penyegar JTERA (Jurnal Teknologi Rekayasa) Agrin : Jurnal Penelitian Pertanian Jurnal Teknik Makara Journal of Technology
Nana Heryana
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DAMPAK PERUBAHAN IKLIM TERHADAP PRODUKSI JAMBU METE DAN UPAYA PENANGGULANGANNYA Supriadi, Handi; Heryana, Nana
Jurnal Tanaman Industri dan Penyegar Vol 2, No 2 (2011): Buletin Riset Tanaman Rempah dan Aneka Tanaman Industri
Publisher : Pusat Penelitian dan Pengembangan Perkebunan

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Abstract

Impact of climate change on cashew production and efforts of countermeasures. Climate change occurs due to the increasing content of greenhouse gases (GHGs)  in the air, mostly resulting from the rapidly growing industrialization. As a result of climate change causes: (1) the earths temperature increased, (2) extreme climate events (climatic anomalies) increased, as events Enso (El-Nino that caused drought and La-Nina causes floods), (3) a decrease and an increase air temperature extremes, (4) changes in rainfall patterns and (5) rise in sea levels and rob. The climate change was significant effect on the reducing of cashew nut production. The rain that fell throughout the year in 2010 resulted in cashew production fell drastically, as in Wonogiri, Central Java (48.75 to 50.85%) and Muna, Southeast Sulawesi (93.63%). The impacts of climate change can be reduction  through the anticipation, adaption and mitigation. Anticipation performed by conducting assessment of agricultural resources, improvement of agricultural structure and infrastructure, imfrovement of  farming system and agribusiness, and management of socio-economi and cultural.  Technologi adaptation was done through the development of varieties tolerant to climate change and  the use of water saving technologies.  While migitation technology that can be applied are: planting cashew, cashew waste utilization, land management and use of organic fertilizers.
DAMPAK PERUBAHAN IKLIM TERHADAP PRODUKSI JAMBU METE DAN UPAYA PENANGGULANGANNYA Supriadi, Handi; Heryana, Nana
Jurnal Tanaman Industri dan Penyegar Vol 2, No 2 (2011): Buletin Riset Tanaman Rempah Dan Aneka Tanaman Industri
Publisher : Pusat Penelitian dan Pengembangan Perkebunan

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

Impact of climate change on cashew production and efforts of countermeasures. Climate change occurs due to the increasing content of greenhouse gases (GHGs)  in the air, mostly resulting from the rapidly growing industrialization. As a result of climate change causes: (1) the earths temperature increased, (2) extreme climate events (climatic anomalies) increased, as events Enso (El-Nino that caused drought and La-Nina causes floods), (3) a decrease and an increase air temperature extremes, (4) changes in rainfall patterns and (5) rise in sea levels and rob. The climate change was significant effect on the reducing of cashew nut production. The rain that fell throughout the year in 2010 resulted in cashew production fell drastically, as in Wonogiri, Central Java (48.75 to 50.85%) and Muna, Southeast Sulawesi (93.63%). The impacts of climate change can be reduction  through the anticipation, adaption and mitigation. Anticipation performed by conducting assessment of agricultural resources, improvement of agricultural structure and infrastructure, imfrovement of  farming system and agribusiness, and management of socio-economi and cultural.  Technologi adaptation was done through the development of varieties tolerant to climate change and  the use of water saving technologies.  While migitation technology that can be applied are: planting cashew, cashew waste utilization, land management and use of organic fertilizers.
Kesesuaian Batang Bawah dan Batang Atas pada Grafting Jambu Mete Supriadi, Handi; Heryana, Nana
Jurnal Tanaman Industri dan Penyegar Vol 3, No 2 (2012): Buletin Riset Tanaman Rempah Dan Aneka Tanaman Industri
Publisher : Pusat Penelitian dan Pengembangan Perkebunan

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Abstract

Produktivitas jambu mete Indonesia sampai saat ini masih tergolong rendah, penyebabnya antara lain: penggunaan bahan tanaman asalan, perbanyakan bahan tanaman yang masih menggunakan biji, dan belum diterapkannya teknologi budidaya anjuran. Usaha untuk meningkatkan produktivitas jambu mete salah satunya dapat dilakukan melalui perbaikan teknik kultivasi yaitu penggunaan bahan tanaman yang dikembangkan secara grafting dengan menggunakan batang atas dari varietas unggul dan batang bawah lokal terpilih. Tujuan penelitian adalah mengevaluasi tampilan pertumbuhan empat kombinasi grafting jambu mete dengan batang atas asal varietas unggul  dan batang bawah lokal terpilih di lapangan. Penelitian di lakukan di kebun percobaan (KP) Cikampek dari Januari 2009 sampai Desember 2011 dalam dua tahap. Tahap pertama (tahun 2009-2010) dilakukan di tingkat pembibitan menggunakan Rancangan Acak Kelompok dan tiga ulangan. Perlakukan yang diuji yaitu: S1 (Tanjung Bunga + Meteor JK), S2 (Tanjung Bunga + B O2),  S3 (Tanjung Bunga + SM 9),  S4 (Tiwatobi + Meteor JK), S5 (Tiwatobi + B O2), S6 (Tiwatobi + SM 9), S7 (Ende + Meteor JK), S8 (Ende + B O2) dan S9 (Ende + SM 9).  Penelitian tahap kedua (tahun 2010 – 2011) dilakukan di lapangan menggunakan Rancangan Acak Kelompok dan enam ulangan. Perlakuan yang di uji adalah  empat kombinasi grafting jambu mete yaitu: G1 (Tanjung Bunga + Meteor JK), G2 (Tanjung Bunga + B 02), G3 (Tiwatobi + Meteor JK), dan G4 (Ende + B 02).  Hasil penelitian menunjukkan bahwa pada pembibitan kombinasi grafting S1 mempunyai persentase keberhasilan yang nyata lebih tinggi dibandingkan kombinasi S2, S3, S4, S5, S6, S7 dan S9, kecuali dengan kombinasi S8  tidak berbeda nyata. Pada tingkat lapang kombinasi grafting G1 sampai umur enam bulan di lapang menunjukkan pertumbuhan terbaik yang nyata lebih baik  dibandingkan kombinasi grafting  G2, G3, dan G4.  Koefisien korelasi antara komponen pertumbuhan (tinggi tanaman, diameter batang, lebar tajuk, jumlah cabang dan jumlah daun) pada grafting jambu mete mempunyai nilai nyata positif. Suitability of Rootstocks and Scions in Cashew Grafting ABSTRACT Indonesian cashew productivity is still relatively low mainly due to the use of imferior planting materials developed from seeds, and improper cultural practices applied by farmers. An effort to increase the productivity of cashew is the use of grafted seedlings developed from combination of scions of high yielding varieties and locally selected cashew accessions as rootstock. The objective of this study was to evaluate growth performance of grafted cashew developed from combination of scions of two high yielding varieties and three locally elected accessions. The study was conducted at Cikampek Research Station from January 2009 to December 2011, in two sequent phases. The first phase  (years 2009 to 2010) was conducted at the nursery level by using a randomized block design with three replications. Treatments tested were: S1 (Tanjung Bunga + Meteor JK), S2 (Tanjung Bunga + B O2), S3 (Tanjung Bunga + SM 9),  S4 (Tiwatobi + Meteor JK), S5 (Tiwatobi + B O2),  S6 (Tiwatobi + SM 9),  S7 (Ende + Meteor JK),  S8 (Ende + B O2) and S9 (Ende + SM 9). The second phase was carried out in years 2010 to 2011 at the field level.  A randomized block design with six replications was used.  The treatments tested were four combination of grafted cashew, namely: G1 (Tanjung Bunga + Meteor JK), G2 (Tanjung Bunga + B 02), G3 (Tiwatobi + Meteor JK), dan  G4 (Ende + B 02). Results showed  at the nursery level, the combination of  S1 had the highest rate of success being significantly higher than those of S2, S3, S4, S5, S6, S7 and S9, but  not for S8. At the field level, the combination G1 accessions yielded the best one. It was much better than those of G2, G3, and G4. Correlation coefficient between the components of growth (plant height, stem diameter, crown width, number of branches and number of leaves) on the grafting of cashew  has a positive value significantly.
Formula Pupuk Berimbang Tanaman Lada di Lampung Tjahjana, Bambang Eka; Daras, Usman; Heryana, Nana
Jurnal Tanaman Industri dan Penyegar Vol 3, No 3 (2012): Buletin Riset Tanaman Rempah Dan Aneka Tanaman Industri
Publisher : Pusat Penelitian dan Pengembangan Perkebunan

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Abstract

Rendahnya produktivitas lada di Lampung disebabkan antara lain belum dilakukannya budidaya yang optimal terutama dalam penggunaan pupuk. Rekomendasi pemupukan yang bersifat umum telah tersedia, tetapi banyak pekebun lada yang tidak mengikuti rekomendasi pemupukan yang sudah ada. Untuk mendapatkan dosis pemupukan yang optimal untuk tanaman lada diperlukan identifikasi karakter wilayah pengembangan. Penelitian dilaksanakan di Kebun Percobaan Cahaya Negeri, Lampung, yang bertujuan mendapatkan formula pupuk NPK berimbang untuk menghasilkan data pertumbuhan dan produksi tanaman lada secara optimal. Rancangan percobaan yang digunakan adalah petak terpisah (split plot design), dengan petak utama adalah formula pupuk NPK, yaitu 1)15:15:15, 2) 12:12:17, dan 3) 12:8:20; sedangkan sebagai anak petak adalah takaran pupuk, yaitu  1) 1.000, 2) 1.300, dan 3) 1.600 g/pohon/thn, serta diulang 3 kali. Pengamatan dilakukan terhadap jumlah cabang (sulur), jumlah daun/cabang, jumlah buku/sulur, tinggi tanaman, tinggi tajuk, jumlah cabang sekunder, diameter tajuk, panjang buku, panjang dan lebar daun, jumlah malai/cabang, berat buah/pohon, berat butir/pohon, panjang malai, jumlah buah jadi/malai dan berat buah 1000 butir, serta status hara tanah dan jaringan tanaman. Hasil penelitian menunjukkan bahwa tidak terdapat interaksi yang nyata antara formula dengan dosis pupuk pada pertumbuhan vegetatif tanaman lada. Indeks pertumbuhan tanaman lada tertinggi 168,13 terjadi pada formula NPK 12:12:17 pada dosis pupuk 1.600 g/pohon/th. Produksi buah per pohon (3.707,50 g) dan berat kering butir per pohon (1.046,75 g) tertinggi pada formula NPK 12:12:17 dengan dosis 1.600 g/pohon/th.  Balanced Fertilizer Formula for Black Pepper Cultivation in LampungABSTRACT Improper cultural practices applied by farmers in black pepper cultivation are believed to be the main constraint resulting low in its productivity. Fertilizer use is often to be major factor contributing to low yield as the crop are mostly grown in infertile soils. Though there is available general recommendation of fertilizer for the crops, but many farmers might not adopt the technology due to various reasons. When the price of black pepper is low, the existing prices of fertilizers are too expensive for farmers, so that they do not use fertilizers adequately for the crops or few if any. To obtain an optimal dose of fertilizer use, it is then needed identification of characters areas on which the crop is grown. A research was conducted in Cahaya Negeri Research Station, Lampung. The research aimed to obtain balanced NPK fertilizer formula giving optimal growth and yield of black pepper. A split plot design with three replications was used. The main plot was formula fertilizers (F): 1) NPK (15:15:15), 2) NPK (12:12:17), and 3) NPK (12:8:20); and the subplot was the dose of fertilizer (D): 1) 1.000 g/tree/yr, 2) 1.300 g tree/yr, and 3) 1.600 g/tree/yr. Parameters observed were the number of branches, the number of leaves/branches, the number of internode/vine, plant height, canopy height, the number of secondary branches, canopy diameter, the length of internode, leaf length, leaf width, the number of spike/branches, fruit weight/tree, grain weight/plant, spike length, fruit set/spike and 1.000 grain weight of pepper berry, and nutrient status of soil and plant tissue. The results show that there was no significant interaction noted between the formula and dose of fertilizers on the vegetative growth of black pepper. The highest growth index (168.130) was obtained on plants treated with added NPK 12:12:17 of 1.600 g/tree/year. The highest of yield and dry weight of pepper berry, 3.707.50 and 1.046.75 g/tree/yr respectively, were found on those ones treated with 1.600 g NPK 12:12:17/tree/year.
KARAKTER MORFOLOGI PALA ASAL GRAFTING MENGGUNAKAN CABANG ORTOTROP DAN PLAGIOTROP Rusli, Rusli; Heryana, Nana
Jurnal Tanaman Industri dan Penyegar Vol 3, No 3 (2012): Buletin Riset Tanaman Rempah Dan Aneka Tanaman Industri
Publisher : Pusat Penelitian dan Pengembangan Perkebunan

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Abstract

Tanaman pala dapat diperbanyak secara grafting dengan cara menyambung pucuk dari tanaman induk terpilih sebagai batang atas dan anakan dari biji sebagai batang bawah. Pucuk (entres) dapat berasal dari cabang ortotrop atau dari cabang plagiotrop. Penelitian  bertujuan mendapatkan sumber entres yang baik  untuk grafting tanaman pala. Penelitian telah dilaksanakan dari tahun 2010 sampai 2012 di Kebun Percobaan Sukamulya, Sukabumi dengan ketinggian tempat 350 m dari permukaan laut, jenis iklim B (Schmidt and Ferguson), dan jenis tanah latosol merah. Penelitian dirancang dengan 2 perlakuan yaitu tanaman pala yang berasal  grafting dengan entres asal cabang ortotrop dan yang berasal dari cabang plagiotrop. Jumlah tanaman masing-masing 10 tanaman, pengamatan meliputi tinggi batang, tinggi tanaman, diameter batang, jumlah cabang, panjang daun, lebar daun, luas daun, jumlah daun,  indek luas daun (ILD), dan bentuk kanopi. Hasil penelitian menunjukkan bahwa tanaman pala yang berasal dari grafting dengan pucuk asal cabang ortotrop mempunyai tinggi batang, tinggi tanaman, diameter batang, jumlah cabang, panjang daun, luas daun, jumlah daun, dan ILD yang lebih baik dibandingkan tanaman pala yang berasal dari benih grafting dengan pucuk yang berasal dari cabang plagiotrop. Demikian juga bentuk kanopi tanaman pala yang berasal dari grafting dengan pucuk asal cabang ortotrop, kanopi lebih sempurna tumbuh ke atas, sedangkan yang berasal dari pucuk plagiotrop tumbuhnya menyamping.MORPHOLOGY CHARACTER OF NUTMEG RAISED BY GRAFTING TECHNIC USING PLAGIOTROP AND ORTOTROP BRANCHABSTRACT Nutmeg plant may be multiplicated through grafting technique by splicing of young shoots (entrees) as upper parts onto seedlings as a bottom parts. The both parts are usually taken from selected perennial lines or the mother plants. The young shoots are usually taken from orthotropic or plagiothrop branches.  A study was conducted at Sukamulya Research Station (Sukabumi) with elevation of 350 m above sea level,  the climate type of B (Schmidt and Fergusson), and soil type of red latosol  from 2010 to 2012. The aim of this study was to find out good entrees in providing of grafted seedlings in nutmeg plant. The treatments evaluated were the use of entrees taken from ortothrop and plagiothrop branches. A number of sampled plants observed were 10 plants of each treatment, whereas parameters observed were plant height, stem diameter, number of branches, length leaf, leaf area index, number of leaves and shape of canopy. The results shows that grafted nutmeg plants developed from ortothrop branches had higher in plant height, stem diameter, number of branches, length of leaf, leaf area index, number of leaf and shape of the canopy showing a good their performance  and significantly different compared to those of plagiothrop branches. In addition, the former was growth up vertically, while the later was growth up horizontally.
Pengaruh Umur Batang Bawah Terhadap Persentase Keberhasilan Okulasi Hijau pada Tiga Klon Karet (Hevea brasiliensis Muell Agr.) Heryana, Nana; Saefudin, Saefudin; Sobari, Iing
Jurnal Tanaman Industri dan Penyegar Vol 1, No 2 (2014): Jurnal Tanaman Industri dan Penyegar
Publisher : Pusat Penelitian dan Pengembangan Perkebunan

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Abstract

Perbanyakan karet (Hevea brasiliensis Muell. Agr.) dengan okulasi cokelat membutuhkan waktu yang lama dalam pembibitannya, sedangkan perbanyakan dengan okulasi hijau belum banyak dilakukan karena tingkat keberhasilan masih sangat rendah. Salah satu faktor yang diduga berpengaruh terhadap keberhasilan okulasi hijau adalah umur bibit batang bawah. Tujuan penelitian adalah mengetahui pengaruh perbedaan umur batang bawah terhadap persentase keberhasilan okulasi hijau pada tiga klon karet. Penelitian dilaksanakan di Kebun Percobaan (KP.) Pakuwon, Balai Penelitian Tanaman Industri dan Penyegar pada bulan Januari-Desember 2013. Penelitian menggunakan rancangan petak terbagi, tiga ulangan dan ukuran petak 25 pohon. Petak utama adalah jenis klon batang bawah, terdiri dari 3 klon, yaitu K1 = AVROS 2037, K2 = PB 260, dan K3 = GT 1. Anak petak adalah umur batang bawah terdiri dari 4 taraf, yaitu U1 = 4 bulan, U2 = 5 bulan, U3 = 6 bulan, U4 = 7 bulan. Okulasi dilakukan dengan cara membuka kulit batang bawah, kemudian entres dimasukkan ke dalam jendela sayatan hasil pembukaan. Pengikatan sambungan dilakukan dengan menggunakan plastik khusus dengan cara dililitkan dari bawah ke atas. Pengamatan dilakukan terhadap persentase keberhasilan okulasi hijau pada umur tiga minggu setelah okulasi (MSO). Hasil penelitian menunjukkan bahwa keberhasilan okulasi hijau pada tanaman karet dipengaruhi oleh umur batang bawah. Untuk Klon PB 260 dan GT 1, makin tua umur batang bawah sampai maksimum 7 bulan di polybag maka semakin meningkat persentase keberhasilan okulasi, sedangkan pada klon AVROS 2037 belum memperlihatkan perbedaan yang nyata.Kata kunci: Hevea brasiliensis, umur batang bawah, klon, keberhasilan okulasi hijauPropagation of rubber (Hevea brasiliensis Muell. Agr.) using brown budding need a long time in the nursery, whereas the propagation usinggreen Budding has not yet been done due to the success rate is still very low. One of the factorthat might influence the successfulness of green budding is rootstock age.. The purpose of this study was to determine the effect of different age of rootstock on the percentage of green budding success in three rubber clones. The experiment was conducted at the Pakuwon experimental station (ES), Indonesian Industrial and Beverage Crops Research Institute, from January-December 2013. The research was done using split plot design with three replications, and the plot size is 25 trees. The main plot was the type of clones used for rootstock that comprised of 3 clones: K1 = AVROS 2037, K2 = PB 260, and K3 = GT 1. Meanwhile, the subplots were rootstock age consists of 4 levels, namely: U1 = 4 months, U2 = 5 months, U3 = 6 months, U4 = 7 months. Observations were made on the percentage of green budding success at 3 weeks old after grafting . The results showed that the success of the green budding on the rubber plants is influenced by the age of rootstock. The use of rootstock up to 7 months old in polybag in PB 260 dan GT 1 clones would increase the percentage of grafting success, whereas AVROS 2037 clone did not show any significant different. 
Formula Pupuk Berimbang Tanaman Lada di Lampung Tjahjana, Bambang Eka; Daras, Usman; Heryana, Nana
Jurnal Tanaman Industri dan Penyegar Vol 3, No 3 (2012): Buletin Riset Tanaman Rempah Dan Aneka Tanaman Industri
Publisher : Pusat Penelitian dan Pengembangan Perkebunan

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Abstract

Rendahnya produktivitas lada di Lampung disebabkan antara lain belum dilakukannya budidaya yang optimal terutama dalam penggunaan pupuk. Rekomendasi pemupukan yang bersifat umum telah tersedia, tetapi banyak pekebun lada yang tidak mengikuti rekomendasi pemupukan yang sudah ada. Untuk mendapatkan dosis pemupukan yang optimal untuk tanaman lada diperlukan identifikasi karakter wilayah pengembangan. Penelitian dilaksanakan di Kebun Percobaan Cahaya Negeri, Lampung, yang bertujuan mendapatkan formula pupuk NPK berimbang untuk menghasilkan data pertumbuhan dan produksi tanaman lada secara optimal. Rancangan percobaan yang digunakan adalah petak terpisah (split plot design), dengan petak utama adalah formula pupuk NPK, yaitu 1)15:15:15, 2) 12:12:17, dan 3) 12:8:20; sedangkan sebagai anak petak adalah takaran pupuk, yaitu  1) 1.000, 2) 1.300, dan 3) 1.600 g/pohon/thn, serta diulang 3 kali. Pengamatan dilakukan terhadap jumlah cabang (sulur), jumlah daun/cabang, jumlah buku/sulur, tinggi tanaman, tinggi tajuk, jumlah cabang sekunder, diameter tajuk, panjang buku, panjang dan lebar daun, jumlah malai/cabang, berat buah/pohon, berat butir/pohon, panjang malai, jumlah buah jadi/malai dan berat buah 1000 butir, serta status hara tanah dan jaringan tanaman. Hasil penelitian menunjukkan bahwa tidak terdapat interaksi yang nyata antara formula dengan dosis pupuk pada pertumbuhan vegetatif tanaman lada. Indeks pertumbuhan tanaman lada tertinggi 168,13 terjadi pada formula NPK 12:12:17 pada dosis pupuk 1.600 g/pohon/th. Produksi buah per pohon (3.707,50 g) dan berat kering butir per pohon (1.046,75 g) tertinggi pada formula NPK 12:12:17 dengan dosis 1.600 g/pohon/th.  Balanced Fertilizer Formula for Black Pepper Cultivation in LampungABSTRACT Improper cultural practices applied by farmers in black pepper cultivation are believed to be the main constraint resulting low in its productivity. Fertilizer use is often to be major factor contributing to low yield as the crop are mostly grown in infertile soils. Though there is available general recommendation of fertilizer for the crops, but many farmers might not adopt the technology due to various reasons. When the price of black pepper is low, the existing prices of fertilizers are too expensive for farmers, so that they do not use fertilizers adequately for the crops or few if any. To obtain an optimal dose of fertilizer use, it is then needed identification of characters areas on which the crop is grown. A research was conducted in Cahaya Negeri Research Station, Lampung. The research aimed to obtain balanced NPK fertilizer formula giving optimal growth and yield of black pepper. A split plot design with three replications was used. The main plot was formula fertilizers (F): 1) NPK (15:15:15), 2) NPK (12:12:17), and 3) NPK (12:8:20); and the subplot was the dose of fertilizer (D): 1) 1.000 g/tree/yr, 2) 1.300 g tree/yr, and 3) 1.600 g/tree/yr. Parameters observed were the number of branches, the number of leaves/branches, the number of internode/vine, plant height, canopy height, the number of secondary branches, canopy diameter, the length of internode, leaf length, leaf width, the number of spike/branches, fruit weight/tree, grain weight/plant, spike length, fruit set/spike and 1.000 grain weight of pepper berry, and nutrient status of soil and plant tissue. The results show that there was no significant interaction noted between the formula and dose of fertilizers on the vegetative growth of black pepper. The highest growth index (168.130) was obtained on plants treated with added NPK 12:12:17 of 1.600 g/tree/year. The highest of yield and dry weight of pepper berry, 3.707.50 and 1.046.75 g/tree/yr respectively, were found on those ones treated with 1.600 g NPK 12:12:17/tree/year.
DAMPAK PERUBAHAN IKLIM TERHADAP PRODUKSI JAMBU METE DAN UPAYA PENANGGULANGANNYA Supriadi, Handi; Heryana, Nana
Jurnal Tanaman Industri dan Penyegar Vol 2, No 2 (2011): Buletin Riset Tanaman Rempah Dan Aneka Tanaman Industri
Publisher : Pusat Penelitian dan Pengembangan Perkebunan

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Abstract

Impact of climate change on cashew production and efforts of countermeasures. Climate change occurs due to the increasing content of greenhouse gases (GHGs)  in the air, mostly resulting from the rapidly growing industrialization. As a result of climate change causes: (1) the earths temperature increased, (2) extreme climate events (climatic anomalies) increased, as events Enso (El-Nino that caused drought and La-Nina causes floods), (3) a decrease and an increase air temperature extremes, (4) changes in rainfall patterns and (5) rise in sea levels and rob. The climate change was significant effect on the reducing of cashew nut production. The rain that fell throughout the year in 2010 resulted in cashew production fell drastically, as in Wonogiri, Central Java (48.75 to 50.85%) and Muna, Southeast Sulawesi (93.63%). The impacts of climate change can be reduction  through the anticipation, adaption and mitigation. Anticipation performed by conducting assessment of agricultural resources, improvement of agricultural structure and infrastructure, imfrovement of  farming system and agribusiness, and management of socio-economi and cultural.  Technologi adaptation was done through the development of varieties tolerant to climate change and  the use of water saving technologies.  While migitation technology that can be applied are: planting cashew, cashew waste utilization, land management and use of organic fertilizers.
KARAKTER MORFOLOGI PALA ASAL GRAFTING MENGGUNAKAN CABANG ORTOTROP DAN PLAGIOTROP Rusli, Rusli; Heryana, Nana
Jurnal Tanaman Industri dan Penyegar Vol 3, No 3 (2012): Buletin Riset Tanaman Rempah Dan Aneka Tanaman Industri
Publisher : Pusat Penelitian dan Pengembangan Perkebunan

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Abstract

Tanaman pala dapat diperbanyak secara grafting dengan cara menyambung pucuk dari tanaman induk terpilih sebagai batang atas dan anakan dari biji sebagai batang bawah. Pucuk (entres) dapat berasal dari cabang ortotrop atau dari cabang plagiotrop. Penelitian  bertujuan mendapatkan sumber entres yang baik  untuk grafting tanaman pala. Penelitian telah dilaksanakan dari tahun 2010 sampai 2012 di Kebun Percobaan Sukamulya, Sukabumi dengan ketinggian tempat 350 m dari permukaan laut, jenis iklim B (Schmidt and Ferguson), dan jenis tanah latosol merah. Penelitian dirancang dengan 2 perlakuan yaitu tanaman pala yang berasal  grafting dengan entres asal cabang ortotrop dan yang berasal dari cabang plagiotrop. Jumlah tanaman masing-masing 10 tanaman, pengamatan meliputi tinggi batang, tinggi tanaman, diameter batang, jumlah cabang, panjang daun, lebar daun, luas daun, jumlah daun,  indek luas daun (ILD), dan bentuk kanopi. Hasil penelitian menunjukkan bahwa tanaman pala yang berasal dari grafting dengan pucuk asal cabang ortotrop mempunyai tinggi batang, tinggi tanaman, diameter batang, jumlah cabang, panjang daun, luas daun, jumlah daun, dan ILD yang lebih baik dibandingkan tanaman pala yang berasal dari benih grafting dengan pucuk yang berasal dari cabang plagiotrop. Demikian juga bentuk kanopi tanaman pala yang berasal dari grafting dengan pucuk asal cabang ortotrop, kanopi lebih sempurna tumbuh ke atas, sedangkan yang berasal dari pucuk plagiotrop tumbuhnya menyamping.MORPHOLOGY CHARACTER OF NUTMEG RAISED BY GRAFTING TECHNIC USING PLAGIOTROP AND ORTOTROP BRANCHABSTRACT Nutmeg plant may be multiplicated through grafting technique by splicing of young shoots (entrees) as upper parts onto seedlings as a bottom parts. The both parts are usually taken from selected perennial lines or the mother plants. The young shoots are usually taken from orthotropic or plagiothrop branches.  A study was conducted at Sukamulya Research Station (Sukabumi) with elevation of 350 m above sea level,  the climate type of B (Schmidt and Fergusson), and soil type of red latosol  from 2010 to 2012. The aim of this study was to find out good entrees in providing of grafted seedlings in nutmeg plant. The treatments evaluated were the use of entrees taken from ortothrop and plagiothrop branches. A number of sampled plants observed were 10 plants of each treatment, whereas parameters observed were plant height, stem diameter, number of branches, length leaf, leaf area index, number of leaves and shape of canopy. The results shows that grafted nutmeg plants developed from ortothrop branches had higher in plant height, stem diameter, number of branches, length of leaf, leaf area index, number of leaf and shape of the canopy showing a good their performance  and significantly different compared to those of plagiothrop branches. In addition, the former was growth up vertically, while the later was growth up horizontally.
Kesesuaian Batang Bawah dan Batang Atas pada Grafting Jambu Mete Supriadi, Handi; Heryana, Nana
Jurnal Tanaman Industri dan Penyegar Vol 3, No 2 (2012): Buletin Riset Tanaman Rempah Dan Aneka Tanaman Industri
Publisher : Pusat Penelitian dan Pengembangan Perkebunan

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Abstract

Produktivitas jambu mete Indonesia sampai saat ini masih tergolong rendah, penyebabnya antara lain: penggunaan bahan tanaman asalan, perbanyakan bahan tanaman yang masih menggunakan biji, dan belum diterapkannya teknologi budidaya anjuran. Usaha untuk meningkatkan produktivitas jambu mete salah satunya dapat dilakukan melalui perbaikan teknik kultivasi yaitu penggunaan bahan tanaman yang dikembangkan secara grafting dengan menggunakan batang atas dari varietas unggul dan batang bawah lokal terpilih. Tujuan penelitian adalah mengevaluasi tampilan pertumbuhan empat kombinasi grafting jambu mete dengan batang atas asal varietas unggul  dan batang bawah lokal terpilih di lapangan. Penelitian di lakukan di kebun percobaan (KP) Cikampek dari Januari 2009 sampai Desember 2011 dalam dua tahap. Tahap pertama (tahun 2009-2010) dilakukan di tingkat pembibitan menggunakan Rancangan Acak Kelompok dan tiga ulangan. Perlakukan yang diuji yaitu: S1 (Tanjung Bunga + Meteor JK), S2 (Tanjung Bunga + B O2),  S3 (Tanjung Bunga + SM 9),  S4 (Tiwatobi + Meteor JK), S5 (Tiwatobi + B O2), S6 (Tiwatobi + SM 9), S7 (Ende + Meteor JK), S8 (Ende + B O2) dan S9 (Ende + SM 9).  Penelitian tahap kedua (tahun 2010 – 2011) dilakukan di lapangan menggunakan Rancangan Acak Kelompok dan enam ulangan. Perlakuan yang di uji adalah  empat kombinasi grafting jambu mete yaitu: G1 (Tanjung Bunga + Meteor JK), G2 (Tanjung Bunga + B 02), G3 (Tiwatobi + Meteor JK), dan G4 (Ende + B 02).  Hasil penelitian menunjukkan bahwa pada pembibitan kombinasi grafting S1 mempunyai persentase keberhasilan yang nyata lebih tinggi dibandingkan kombinasi S2, S3, S4, S5, S6, S7 dan S9, kecuali dengan kombinasi S8  tidak berbeda nyata. Pada tingkat lapang kombinasi grafting G1 sampai umur enam bulan di lapang menunjukkan pertumbuhan terbaik yang nyata lebih baik  dibandingkan kombinasi grafting  G2, G3, dan G4.  Koefisien korelasi antara komponen pertumbuhan (tinggi tanaman, diameter batang, lebar tajuk, jumlah cabang dan jumlah daun) pada grafting jambu mete mempunyai nilai nyata positif. Suitability of Rootstocks and Scions in Cashew Grafting ABSTRACT Indonesian cashew productivity is still relatively low mainly due to the use of imferior planting materials developed from seeds, and improper cultural practices applied by farmers. An effort to increase the productivity of cashew is the use of grafted seedlings developed from combination of scions of high yielding varieties and locally selected cashew accessions as rootstock. The objective of this study was to evaluate growth performance of grafted cashew developed from combination of scions of two high yielding varieties and three locally elected accessions. The study was conducted at Cikampek Research Station from January 2009 to December 2011, in two sequent phases. The first phase  (years 2009 to 2010) was conducted at the nursery level by using a randomized block design with three replications. Treatments tested were: S1 (Tanjung Bunga + Meteor JK), S2 (Tanjung Bunga + B O2), S3 (Tanjung Bunga + SM 9),  S4 (Tiwatobi + Meteor JK), S5 (Tiwatobi + B O2),  S6 (Tiwatobi + SM 9),  S7 (Ende + Meteor JK),  S8 (Ende + B O2) and S9 (Ende + SM 9). The second phase was carried out in years 2010 to 2011 at the field level.  A randomized block design with six replications was used.  The treatments tested were four combination of grafted cashew, namely: G1 (Tanjung Bunga + Meteor JK), G2 (Tanjung Bunga + B 02), G3 (Tiwatobi + Meteor JK), dan  G4 (Ende + B 02). Results showed  at the nursery level, the combination of  S1 had the highest rate of success being significantly higher than those of S2, S3, S4, S5, S6, S7 and S9, but  not for S8. At the field level, the combination G1 accessions yielded the best one. It was much better than those of G2, G3, and G4. Correlation coefficient between the components of growth (plant height, stem diameter, crown width, number of branches and number of leaves) on the grafting of cashew  has a positive value significantly.
Co-Authors agus Purwadi Alfarizi, Muhammad Rizky Bambang Eka Tjahjana Bambang Widodo Gusti Indriati Halimi, Burhanuddin Handi Supriadi Iing Sobari Iskandar, Handoko Rusiana Juniarto, Eko Prasetya, Ajie Purba, Robinson R. Rusli Saefudin Saefudin Usman Daras Yundari, Yundari