Intensification of Agroforestry Systems in Community Forests to Increase Land Productivity and Sustainable Food Sovereignty

• Aris Sudomo, 
• Aditya Hani, 
• Cahyono Agus, 
• Agung Wahyu Nugroho, 
• Marcellinus Mandira Budi Utomo & 
• Yonky Indrajaya 

• Chapter
• First Online: 29 July 2022

Abstract

A food crisis can arise due to the population growth being faster than the growth in food production. This is because food requirement is increasing significantly, while natural resources to support human life are increasingly becoming scarce. This chapter aims to determine a protocol for increasing the productivity of food plants in agroforestry community forests to contribute to sustainable food security and sovereignty in Indonesia. Small farmers in Indonesian villages generally cultivate their limited land (yards, moor, and community forests) traditionally and intensively to produce food, including corn, peanuts, soybeans, coffee, fruits, and tubers, in agroforestry systems. The productivity of food crops in private forests on a smallholder agroforestry scale is still relatively low, but it can be sustainable. Small-scale agroforestry supports the fulfillment of the basic food needs of the farming community sub-system, even though it is a micro-scale business. Private monoculture forests have recently developed agroforestry systems to produce timber, food crops, energy, and medicines. The expansion of land under food crops and environmental engineering technology on infertile land has a high potential to increase food productivity. The applied agroforestry silviculture starts from selecting shade-tolerant crops, intensifying tree treatment to provide space for crops and fertilizer inputs.

Keywords

• Agroforestry
• Private forest
• Food crops
• Food security
• Silviculture

References

• Abidin Z, Puwatu K (2016) Potensi pengembangan tanaman pangan pada kawasan hutan tanaman rakyat. Jurnal Penelitian Dan Pengembangan Pertanian 34(2):71–78CrossRef Google Scholar 
• Agus C (2018) Development of blue revolution through integrated bio-cycles system on tropical natural resources management. In: Leal Filho W, Pociovălișteanu DM, Borges de Brito PR, Borges de Lima I (eds) Towards a sustainable bioeconomy: principles, challenges and perspectives. Springer International Publishing, Cham, pp 155–172Google Scholar 
• Ashari S, Purwantini TB (2016) Potensi dan prospek pemanfaatan lahan pekarangan untuk mendukung ketahanan pangan. http://repository.pertanian.go.id/handle/123456789/5275. Accessed 17/05/2021 2021
• Bazié HR, Bayala J, Zombré G, Sanou J, Ilstedt U (2012) Separating competition-related factors limiting crop performance in an agroforestry parkland system in Burkina Faso. Agrofor Syst 84(3):377–388. https://doi.org/10.1007/s10457-012-9483-yCrossRef Google Scholar 
• Belsky JM (1993) Household food security, farm trees, and agroforestry: a comparative study in Indonesia and the Philippines. Hum Organ 52(2):130–141CrossRef Google Scholar 
• Bertomeu M, Roshetko JM, Rahayu S (2011) Optimum pruning intensity for reducing crop suppression in a Gmelina–maize smallholder agroforestry system in Claveria, Philippines. Agrofor Syst 83(2):167. https://doi.org/10.1007/s10457-011-9435-yCrossRef Google Scholar 
• Borden KA, Isaac ME (2019) Management strategies differentially affect root functional trait expression in cocoa agroforestry systems. Agron Sustain Dev 39(2):21. https://doi.org/10.1007/s13593-019-0567-1CrossRef CAS Google Scholar 
• Budi RSW (2009) Study on the use of arbuscular mycorrhiza fungi for improving crop productivity in agroforestry system in Gunung Walat Educational Forest. Restoration of degraded forest through establisment of sustainable agrosystem with high ecological and economical values using people’s participation In: Gunung Walat, Indonesia, vol 2. IPB & Akecu, BogorGoogle Scholar 
• Budi RSW, Siregar IZ, Sukendro A, Wijayanto N, Supriyanto (2009a) Study on the use of dekastar fertilizer for improving coffee productivity in agroforestry system in agroforestry system at Gunung Walat Educational Forest, vol 4. IPB & Akecu, BogorGoogle Scholar 
• Budi RSW, Siregar IZ, Supriyanto Sukendro A, Wijayanto N (2009b) Study on the use of fertilizer and pruning treatment for improving coffee productivity in agroforestry system at Gunung Walat Educational Forest, vol 4. IPB & Akecu, BogorGoogle Scholar 
• Cardoso DJ, Lacerda AEB, Rosot MAD, Garrastazú MC, Lima RT (2013) Influence of spacing regimes on the development of loblolly pine (Pinus taeda L.) in Southern Brazil. For Ecol Manage 310:761–769. https://doi.org/10.1016/j.foreco.2013.09.021CrossRef Google Scholar 
• Caron BO, Sgarbossa J, Schwerz F, Elli EF, Eloy E, Behling A (2018) Dynamics of solar radiation and soybean yield in agroforestry systems. Anais da Academia Brasileira de Ciências 90(4):3799–3812. https://doi.org/10.1590/0001-3765201820180282CrossRef Google Scholar 
• Charbonnier F, Roupsard O, le Maire G, Guillemot J, Casanoves F, Lacointe A, Vaast P, Allinne C, Audebert L, Cambou A, Clément-Vidal A, Defrenet E, Duursma RA, Jarri L, Jourdan C, Khac E, Leandro P, Medlyn BE, Saint-André L, Thaler P, Van Den Meersche K, Barquero Aguilar A, Lehner P, Dreyer E (2017) Increased light-use efficiency sustains net primary productivity of shaded coffee plants in agroforestry system. Plant Cell Environ 40(8):1592–1608. https://doi.org/10.1111/pce.12964CrossRef CAS Google Scholar 
• Charles RL, Munishi P, Nzunda EF (2013) Agroforestry as adaptation strategy under climate change in Mwanga District, Kilimanjaro, Tanzania. Int J Environ Prot 3(11):29–38Google Scholar 
• Dilla AM, Smethurst PJ, Barry K, Parsons D, Denboba MA (2019) Tree pruning, zone and fertiliser interactions determine maize productivity in the Faidherbia albida (Delile) A. Chev parkland agroforestry system of Ethiopia. Agrofor Syst 93(5):1897–1907. https://doi.org/10.1007/s10457-018-0304-9
• Dilla AM, Smethurst PJ, Huth NI, Barry KM (2020) Plot-scale agroforestry modeling explores tree pruning and fertilizer interactions for maize production in a Faidherbia Parkland. Forests 11(11). https://doi.org/10.3390/f11111175
• Direktorat Budidaya Aneka Kacang dan Umbi/DBAKU (2013) Gembili. In: Direktorat Jenderal Tanaman Pangan Kementerian Pertanian (ed). Kementerian Pertanian, JakartaGoogle Scholar 
• Djaafar TF, Pustika AB (2010) Pengembangan budi daya tanaman garut dan teknologi pengolahannya untuk mendukung ketahanan pangan. Jurnal Penelitian dan Pengembangan Pertanian 29(1). https://doi.org/10.21082/jp3.v29n1.2010.p%25p
• Duffy C, Toth GG, Hagan RPO, McKeown PC, Rahman SA, Widyaningsih Y, Sunderland TCH, Spillane C (2021) Agroforestry contributions to smallholder farmer food security in Indonesia. Agrofor Syst. https://doi.org/10.1007/s10457-021-00632-8CrossRef Google Scholar 
• Dupraz C, Blitz-Frayret C, Lecomte I, Molto Q, Reyes F, Gosme M (2018) Influence of latitude on the light availability for intercrops in an agroforestry alley-cropping system. Agrofor Syst 92(4):1019–1033. https://doi.org/10.1007/s10457-018-0214-xCrossRef Google Scholar 
• Efendi HM (2004) Fungsi agronomi sistem agroforestri pinus (Pinus merkusii) dan jagung (Zea mays L.) dengan pemangkasan tajuk pohon dan pemberian pupuk nitrogen. (tidak diterbitkan). Universitas Brawijaya, MalangGoogle Scholar 
• Evizal R, Tohari T, Prijambada ID, Widada J, Prasmatiwi FE (2010) Pengaruh tipe agroekosistem terhadap produktivitas dan keberlanjutan usahatani kopi. Jurnal Agrotropika 15(1):17–22. https://doi.org/10.23960/ja.v15i1.4243
• FAO (2005) Global forest resource assessment, progress towards sustainable forest management, vol 147. FAO Forestry Paper, p 320Google Scholar 
• Fathurrohmah R (2014) Pengaruh Pohon Penaung Leda (Eucalyptus deglupta Bl.) dan Suren (Toona sureni Merr.) Terhadap Pertumbuhan dan Produksi Kopi (Coffea arabica L.). Institut Pertanian Bogor, Bogor, IndonesiaGoogle Scholar 
• Febrianty F (2003) Budidaya pisang (Musa paradisiacal Linn) dalam sistem agroforestri di daerah berkapur Malang Selatan. Universitas Brawijaya, MalangGoogle Scholar 
• FORDA (1997) Laporan Tahunan 1996–97. Forestry Research and Development Agency, Ministry of Forestry, JakartaGoogle Scholar 
• Garrity DP, Akinnifesi FK, Ajayi OC, Weldesemayat SG, Mowo JG, Kalinganire A, Larwanou M, Bayala J (2010) Evergreen agriculture: a robust approach to sustainable food security in Africa. Food Sec 2(3):197–214. https://doi.org/10.1007/s12571-010-0070-7CrossRef Google Scholar 
• Godfray HCJ, Beddington JR, Crute IR, Haddad L, Lawrence D, Muir JF, Pretty J, Robinson S, Thomas SM, Toulmin C (2010) Food security: the challenge of feeding 9 billion people. Science 327(5967):812. https://doi.org/10.1126/science.1185383CrossRef CAS Google Scholar 
• Gunawan, Rohandi A (2018) Produktivitas dan kualitas tiga varietas jahe pada berbagai tingkat intensitas cahaya di bawah tegakan Tusam. Jurnal Agroforestri Indonesia 1(1):1–13Google Scholar 
• Hairiah K, van Noordwjik M (1993) Peranan tanaman pagar dalam mempertahankan produksi tanaman jagung yang berkelanjutan pada ultisol daerah Lampung. Loka Karya Nasional Agroforestry BogorGoogle Scholar 
• Hani A, Mile Y (2006) Uji silvikultur sengon asal tujuh sumber benih. Jurnal Penelitian Hutan Tanaman 3(2)Google Scholar 
• Harmand J-M, Ávila H, Dambrine E, Skiba U, de Miguel S, Renderos RV, Oliver R, Jiménez F, Beer J (2007) Nitrogen dynamics and soil nitrate retention in a Coffea arabica—eucalyptus deglupta agroforestry system in Southern Costa Rica. Biogeochemistry 85(2):125–139. https://doi.org/10.1007/s10533-007-9120-4CrossRef CAS Google Scholar 
• Hernawan E, Rosmiati M, Lastini T, Sofiatin, Dwiartama A, Rahman H (2020) Agroforestry as a model of sustainable land use of small-scale private forest: a case study in Sumedang, West Java, Indonesia. Int J Bus Continuity Risk Manage 10(2–3):194–206.https://doi.org/10.1504/IJBCRM.2020.108506
• Hidayat Y, Lala F, Suwitono B, Aji HB, Bram B (2020) Implementasi teknologi peningkatan produktivitas lahan kering di bawah tegakan kelapa di Maluku Utara Buletin Palma 21(1):11–21. https://doi.org/10.21082/bp.v21n1.2020.11-21
• Hilmanto R (2009) Local ecological knowledge dalam teknik pengelolaan lahan pada sistem agroforestri. Universitas Lampung, Bandar LampungGoogle Scholar 
• Huxley P (1999) Tropical agroforestry. Blackwell Science LtdGoogle Scholar 
• Kittur BH, Sudhakara K, Mohan Kumar B, Kunhamu TK, Sureshkumar P (2016) Bamboo based agroforestry systems in Kerala, India: performance of turmeric (Curcuma longa L.) in the subcanopy of differentially spaced seven year-old bamboo stand. Agrofor Syst 90(2):237–250. https://doi.org/10.1007/s10457-015-9849-z
• Kurniawan I (2004) Fungsi agronomi sistem agroforestri pinus (Pinus merkusii) dan kedelai (Glycine max L) dengan pemangkasan pohon dan pemberian bahan organikMalang. (tidak diterbitkan). Universitas Brawijaya, MalangGoogle Scholar 
• Kusuma IF (2004) Fungsi agronomi sistem agroforestri pinus (Pinus mercusii) dan jagung (Zea mays L.) dengan pemangkasan pohon. Universitas Brawijaya, MalangGoogle Scholar 
• Livesley SJ, Gregory PJ, Buresh RJ (2000) Competition in tree row agroforestry systems. 1. Distribution and dynamics of fine root length and biomass. Plant Soil 227(1):149–161. https://doi.org/10.1023/A:1026551616754
• Lynam J, Beintema NM, Roseboom J, Badiane O (2016) Agricultural research in Africa: investing in future harvests. International Food Policy Research Institute.https://doi.org/10.2499/9780896292123
• Maharani HS (2004) Fungsi agronomi sistem agroforestri pinus (Pinus merkusii) dan jagung (Zea mays L) dengan pemangkasan pohon dan pemberian bahan organik. Universitas Brawijaya, MalangGoogle Scholar 
• Mantino A, Tozzini C, Bonari E, Mele M, Ragaglini G (2021) Competition for light affects alfalfa biomass production more than its nutritive value in an olive-based alley-cropping system. Forests 12(2). https://doi.org/10.3390/f12020233
• Mardhikasari S, Purnomo D, Sulistyo T (2015) Penggunaan pupuk cair ekstrak limbah rumah tangga dalam budidaya organik kedelai pada sistem agroforestri. Caraka Tani J Sustain Agric 30:13. https://doi.org/10.20961/carakatani.v30i1.11830CrossRef Google Scholar 
• Miah MG, Islam MM, Rahman MA, Ahamed T, Islam MR, Jose S (2018) Transformation of jackfruit (Artocarpus heterophyllus Lam.) orchard into multistory agroforestry increases system productivity. Agrofor Syst 92(6):1687–1697. https://doi.org/10.1007/s10457-017-0118-1
• Miliang S (1991) Peranan input teknik budidaya terhadap keberhasilan agroforestri di lokasi transmigrasi Kumai Kalimantan Tengah. Universitas Gadjah Mada, YogyakartaGoogle Scholar 
• Mindawati N, Widiarti A, Rustaman B (2006) Review Hasil Penelitian Hutan Rakyat. Pusat Penelitian dan Pengembangan Hutan Tanaman, BogorGoogle Scholar 
• Moreno G (2008) Response of understorey forage to multiple tree effects in Iberian dehesas. Agr Ecosyst Environ 123(1):239–244. https://doi.org/10.1016/j.agee.2007.04.006CrossRef Google Scholar 
• Moreno G, Obrador JJ, García A (2007) Impact of evergreen oaks on soil fertility and crop production in intercropped dehesas. Agr Ecosyst Environ 119(3):270–280. https://doi.org/10.1016/j.agee.2006.07.013CrossRef CAS Google Scholar 
• Na’iem M, Sabarnurdin MS (2003) Agroforestri dalam pengelolaan intensif sumber daya lahan. In: Seminar Nasional Agroforestri, Yogyakarta, Faculty of Forestry, Gadjah Mada UniversityGoogle Scholar 
• Nicodemo MLF, Castiglioni PP, Pezzopane JRM, Tholon P, Carpanezzi AA (2016) Reducing competition in agroforestry by pruning native trees. Revista Árvore 40:509–518. https://doi.org/10.1590/0100-67622016000300014CrossRef CAS Google Scholar 
• Pretty J, Bharucha ZP (2014) Sustainable intensification in agricultural systems. Ann Bot 114(8):1571–1596. https://doi.org/10.1093/aob/mcu205CrossRef Google Scholar 
• Radjit BS, Widodo Y, Saleh N, Prasetiaswati N (2014) Teknologi untuk meningkatkan produktivitas dan keuntungan usahatani ubikayu di lahan kering ultisol. Iptek Tanaman Pangan 9(1)Google Scholar 
• Riedel J, Kägi N, Armengot L, Schneider M (2019) Effects of rehabilitation pruning and agroforestry on cacao tree development and yield in an older full-sun plantation. Exp Agric 55(6):849–865. https://doi.org/10.1017/S0014479718000431CrossRef Google Scholar 
• Rivest D, Paquette A, Moreno G, Messier C (2013) A meta-analysis reveals mostly neutral influence of scattered trees on pasture yield along with some contrasted effects depending on functional groups and rainfall conditions. Agr Ecosyst Environ 165:74–79. https://doi.org/10.1016/j.agee.2012.12.010CrossRef Google Scholar 
• Rizwan M, Rauf A, Rahmawaty R, Akub EN (2020) Response of physiology, growth and yield of soybean varieties on fertilization treatment in agroforestry systems. Russ J Agric Socio-Econ Sci 102:145–154. https://doi.org/10.18551/rjoas.2020-06.17CrossRef Google Scholar 
• Roshetko JM, Manurung GE (2009) Smallholder teak production systems in Gunungkidul, Indonesia. In: 2nd world congress of agroforestry, Nairobi. ICRAFGoogle Scholar 
• Rosmiah R, Gusmiatun G, Pebriana P (2014) Respon pertumbuhan dan produksi tanaman ganyong (Cannaedulis Kerr.) terhadap perlakuan jenis dan takaran pupuk kandang pada tanah ultisol. Klorofil: Jurnal Penelitian Ilmu-Ilmu Pertanian 9(2):89–93Google Scholar 
• Sardjono MA, Djogo T, Arifin HS, Wijayanto N (2003) Klasifikasi dan pola kombinasi komponen agroforestri. Bahan Ajaran Agroforestri 2Google Scholar 
• Schenk HJ (2006) Root competition: beyond resource depletion. J Ecol 94(4):725–739. https://doi.org/10.1111/j.1365-2745.2006.01124.xCrossRef Google Scholar 
• Siebert SF (2002) From shade-to sun-grown perennial crops in Sulawesi, Indonesia: implications for biodiversity conservation and soil fertility. Biodivers Conserv 11(11):1889–1902CrossRef Google Scholar 
• Soekotjo (2004) Silvikultur Hutan Tanaman: Prinsip-Prinsip Dasar. In: Pembangunan Hutan Tanaman Acacia mangium. PT Musi Hutani Persada, PalembangGoogle Scholar 
• Sudomo A (2012) Pertumbuhan jagung (Zea mays) dan manglid pada sistem silvikultur agroforestry. In: Seminar Nasional Pengelolaan Sumberdaya Alam Dan Lingkungan, Semarang. UNDIPGoogle Scholar 
• Sudomo A (2013) Produktivitas kacang tanah (Arachis hypogeae L.) di bawah tegakan manglid dalam sistem agroforestry. In: Kuswantoro DP, Widyaningsih TS, Fauziyah E, Rachmawati R (eds) Seminar Nasional Agroforestry, Malang. ICRAF, MAFI, FORDA, UBGoogle Scholar 
• Sudomo A, Hani A (2014) Produktivitas talas (Colocasia esculenta L. Shott) di bawah tiga jenis tegakan dengan sistem agroforestri di lahan hutan rakyat. Jurnal Ilmu Kehutanan 8(2):100–107. https://doi.org/10.22146/jik.10166
• Sudomo A, Rohandi A (2017) Evaluasi produktivitas jagung (Zea mays) pada sistem agroforestry berbasis manglid (Magnolia champaca) di lahan kering hutan rakyat. In: Bunga Rampai Konservasi Lahan. Andi, YogyakartaGoogle Scholar 
• Suryanto P (2014) Traditional silviculture and its opportunity in privately owned forest Menoreh Mountain-Kulonprogo. Jurnal Kawistara 4(1). https://doi.org/10.22146/kawistara.5230
• Suryanto P, Budiadi, Sabarnurdin MS (2017) Silvikultur agrofrestry dan masa depan hutan rakyat. In: Maryudi A, Nawir AA (eds) Hutan Rakyat Di Simpang Jalan. Gadjah Mada University Press, Yogyakarta, IndonesiaGoogle Scholar 
• Suryanto P, Putra E, Suwignyo B, Prianto S (2012) Silviculture agroforestry regime in community forestry: enhancing compatible traditional, intensive, productive and sustainable management. In: 1st conference forest for people, Tyrol, Austria. Cirad, pp 22–25Google Scholar 
• Suryanto P, Sabarnurdin MS, Aryono WB, Wiryamarta F (2009) Fallow model in agroforestry systems. In: Bandar Lampung. UNILA-SEANAFE-INAFE, Bandar LampungGoogle Scholar 
• Trimanto V (2003) Pendugaan potensi produksi tanaman ubi kayu (Manihot esculenta Crantz) yang ditanam dengan pohon jati (Tectona grandis L.) pada sistem agroforestri di Lodoyo, Blitar. Universitas Brawijaya, MalangGoogle Scholar 
• von Maydell H-J (1986) Trees and shrubs of the Sahel, their characteristics and uses, vol 196Google Scholar 
• Waldron A, Garrity D, Malhi Y, Girardin C, Miller DC, Seddon N (2017) Agroforestry can enhance food security while meeting other sustainable development goals. Trop Conserv Sci 10:1940082917720667. https://doi.org/10.1177/1940082917720667CrossRef Google Scholar 
• Waldron A, Justicia R, Smith LE (2015) Making biodiversity-friendly cocoa pay: combining yield, certification, and REDD for shade management. Ecol Appl 25(2):361–372. https://doi.org/10.1890/13-0313.1CrossRef CAS Google Scholar 
• Weersum KF (1982) Tree gardening and taungya on Java: examples of agroforestry techniques in the humid tropics. Agrofor Syst 1(1):53–70. https://doi.org/10.1007/BF00044329CrossRef Google Scholar 
• Widyati E, Irianto RS, Tata MHL (2010) Ameliorasi tanah gambut melalui kegiatan agroforestry. Tekno Hutan Tanaman 3(3):121–130Google Scholar 
• Wu J, Zeng H, Zhao F, Chen C, Jiang X, Zhu X, Wang P, Wu Z, Liu W (2020) The nutrient status of plant roots reveals competition intensities in rubber agroforestry systems. Forests 11(11). https://doi.org/10.3390/f11111163
• Zhang W, Wang BJ, Gan YW, Duan ZP, Hao XD, Xu WL, Li LH (2019) Different tree age affects light competition and yield in wheat grown as a companion crop in jujube-wheat agroforestry. Agrofor Syst 93(2):653–664. https://doi.org/10.1007/s10457-017-0160-zCrossRef Google Scholar

Author information

Authors and Affiliations

1. Research Center for Plant Conservation, Botanical Gardens and Forestry, National Research and Innovation Agency (BRIN), Jl. Ir. Haji Djuanda No.12. RT 4 / RW 2. -. Paledang, Bogor Tengah, Bogor, 16122, IndonesiaAris Sudomo, Aditya Hani & Agung Wahyu Nugroho
2. Department of Silviculture, Faculty of Forestry UGM, Yogyakarta, 55281, IndonesiaCahyono Agus
3. The Association of Tamansiswa Society (PKBTS), Yogyakarta, 55151, IndonesiaCahyono Agus
4. National Research and Innovation Agency (BRIN), Jl. Gatot Subroto Kav. 10 Jakarta Selatan. Karet Setiabudi, Kec. Mampang Prapatan, Jakarta Selatan, 12710, IndonesiaMarcellinus Mandira Budi Utomo
5. Research Center for Ecology and Ethnobiology, National Research and Innovation Agency (BRIN), Jalan Raya Jakarta-Bogor Km.46, Cibinong, 16911, IndonesiaYonky Indrajaya

Corresponding author

Correspondence to Yonky Indrajaya .

Editor information

Editors and Affiliations

1. Hamburg University of Applied Sciences and Manchester Metropolitan University, Hamburg, GermanyDr. Walter Leal Filho
2. FTZ-ALS, HAW Hamburg, Hamburg, GermanyMarina Kovaleva
3. Department of Economic Policy and Public-Private Partnership, Moscow State Institute of International, Moscow, RussiaProf. Elena Popkova