Abstract
Soil quality is widely regarded as an important factor in sustainable agriculture and is often assessed by evaluating the pertinent physical, chemical and biological properties of soils. The aims of this study were to (i) establish a minimum data set (MDS) of soil quality parameters capable of monitoring changes in soil condition and ecosystem functioning in smallholder cocoa production systems on tropical alfisols in southwest Nigeria; and (ii) examine the relationship between selected MDS of soil quality parameters and cocoa yield along a chronosequence of 3-, 7-, 15-, 22-, 30-, 40-, 60- and 80-year-old farm plots. To achieve these aims, five plots were identified for each plantation age group and bulk soil samples were collected at a depth of 0–20 cm. The samples were analysed for a total data set (TDS) of twenty-three separate soil quality parameters. Principal component analysis (PCA) was employed to reduce the dimensionality of the TDS to five principal components. The PCA results showed that five principal components with eigenvalues > 1 explained more than 78% of the variability in the soil properties. Within PC1–PC5, eleven (11) soil quality parameters with high loadings were identified and selected as the MDS. A stepwise multiple regression analysis of cocoa yield and MDS revealed that soil organic matter and cation exchange capacity are the key parameters influencing cocoa yield. To maintain the yield as well as long-term sustainability of smallholder cocoa farming systems, inorganic fertilizer application is needed. Considering the poor transportation system in rural areas and prohibitive costs associated with inorganic fertilizer application in cocoa plantations, it is suggested that organic materials such as cocoa pod husk should be used to improve soil health. Another proposed approach for improving the N content of cocoa soils is to inter-crop nitrogen-fixing legumes.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abubakar SM (1996) Rehabilitation of degraded lands by means of fallowing in a semi-arid area of Northern Nigeria. Land Degrad Dev 7:133–144
Adejuwon JO, Ekanade O (1988) A comparison of soil properties under different landuse types in a part of the Nigerian cocoa belt. CATENA 15:319–331
Adejuwon JO, Jeje LK (1975) Land element of the environmental system of Ife area. Occassional paper, Department of Geography, Obafemi Awolowo University, Nigeria
Adenikinju SA, Afolami CA, Ajobo O (1991) Preliminary comparative analysis of cocoa yield under three treatments in combination with oil palm in Nigeria. Ghana J Agric Sci 24(1):37–41
Adeniyi SA, De Clercq WP, Van Niekerk A (2017) Development of a composite soil degradation assessment index for cocoa agroecosystems in southwestern Nigeria. Solid Earth 8(4):827–843
Adeoti JO, Olubamiwa O (2009) Towards an innovation system in the traditional sector: the case of the Nigerian cocoa industry. Sci Public Policy 36(1):15–31
Aikpokpodion P (2010) Nutrients dynamics in cocoa soils, leaf and beans in onto state, Nigeria. J Agric Sci 1(1):1–9
Akinola SR (2007) Coping with infrastructural deprivation through collective action among rural people in Nigeria. Nordic J Afr Stud 16(1):30–46
Akinyemi SOS, Aiyelaagbe IOO, Akyeampong E (2010) Plantain Musa spp cultivation in Nigeria: a review of its production, marketing and research in the last two decades. In: Dubois T, Hauser S, Staver C, Coyne D (eds) Proceedings of an international conference on banana & plantain in Africa harnessing international partnerships to increase research impact, vol 879. Acta Horticulturae, pp 211–218
Akinyemi FO (2013) An assessment of land-use change in the Cocoa Belt of south-west Nigeria. Int J Remote Sens 34(8):2858–2875
Alabi T, Sonder K, Oduwole O, Okafor C (2012) A multi-criteria GIS site selection for sustainable cocoa development in West Africa. Int J Appl Geospatial Res 3(1):73–87
Ameyan O (1988) The soil factor in crop production: an exploratory study in a humid tropical environment. Agric Syst 26:51–64
Ammari TG, Tahhan R, Al Sulebi N, Tahboub A, Ta’any RA, Abubaker S (2015) Impact of intensive greenhouse production system on soil quality. Pedosphere 25:282–293
Anderson JM, Ingram JSI (1993) Tropical soil biology and fertility: a handbook of methods. CAB International, Wallingford
Andrews SS, Karlen DL, Mitchell JP (2002) A comparison of soil quality indexing methods for vegetable production systems in Northern California. Agr Ecosyst Environ 90:25–45
Andrews SS, Flora CB, Mitchell JP, Karlen DL (2003) Growers’ perceptions and acceptance of soil quality indices. Geoderma 114:187–213
Anglaaere LCN, Cobbina J, Sinclair FL, McDonald MA (2011) The effect of land use systems on tree diversity: farmer preference and species composition of cocoa-based agroecosystems in Ghana. Agrofor Syst 81:249–265
Appiah MR, Sackey ST, Ofori-Frimpong K, Afrifa AA (1992) The consequences of cocoa production on soil fertility in Ghana: a review. Ghana J Agric Sci 30:183–190
Appiah MR, Ofori-Frimpong K, Afrifa AA (2000) Evaluation of fertilizer application on some peasant cocoa farms in Ghana. Ghana J Agric Sci 33:183–190
Are LA, Ashiru GA, Odegbero OA (1971) Progress in tree crop research in Nigeria. Cocoa Research Institute of Nigeria, Ibadan, pp 52–65
Asare BR, Asare RA, Asante WA, Markussen BO, Ræbild A (2017) Influences of shading and fertilization on on-farm yields of cocoa in Ghana. Exp Agric 53:416–431
Aweto AO (1981) Organic matter in fallow soil in a part of Nigeria and its effects on soil properties. J Biogeogr 8:67–74
Aweto AO (1982) Variability of upper slope soils developed on sandstones in southwestern Nigeria. Niger Geogr J 25(1 & 2):27–37
Aweto AO, Iyanda AO (2003) Effects of Newbouldia Laevis on soil subjected to shifting cultivation in the Ibadan Area, Southwestern Nigeria. Land Degrad Dev 56:51–56
Babalola FD, Ayinde EO, Chirwa PW, Thiam DR (2016) Risks and coping strategies of production and marketing of cocoa in Ondo State Nigeria. Agrofor Syst. https://doi.org/10.1007/s10457-016-9905-3
Belsky JM, Siebert SF (2003) Cultivating cacao: implications of sun-grown cacao on local food security and environmental sustainability. Agric Hum Values 20(3):277–285
Bi CJ, Chen ZL, Wang J, Zhou D (2013) Quantitative assessment of soil health under different planting patterns and soil types. Pedosphere 23:194–204
Black CA, Evans DD, White JL, Ensminger LE, Clark FE (eds) (1965) Methods of soil analysis. Part 1. Physical and mineralogical properties, including statistics of measurement and sampling. America Society of Agronomy, Madison, WI
Blaser W, Oppong J, Yeboah E, Six J (2017) Shade trees have limited benefits for soil fertility in cocoa agroforests. Agr Ecosyst Environ 243:83–91
Brady NC, Weil RR (eds) (2002) The nature and properties of soils, 13th edn. Prentice-Hall, New Jersey
Brejda JJ, Karlen DL, Smith JL, Allan DL (2000) Identification of regional soil quality factors and indicators: II. Northern Mississippi Loess Hills and Palouse Prairie. Soil Sci Soc Am J 64:2125–2135
Bruce RR, White AW, Thomas AW, Snyder WM, Langdale GW, Perkins HF (1988) Characterization of soil-crop yield relations over a range of erosion on a landscape. Geoderma 43:99–116
Carr MKV, Lockwood G (2011) The water relations and irrigation requirements of cocoa (Theobroma Cacao L.): a review. Exp Agric 47:653–676
Cox MS, Gerard PD, Wardlaw MC, Abshire MJ (2003) Variability of selected soil properties and their relationships with soybean yield. Soil Sci Soc Am J 67:1296–1302
Dawoe EK, Isaac ME, Quashie-Sam J (2010) Litterfall and litter nutrient dynamics under cocoa ecosystems in lowland humid Ghana. Plant Soil 330(1–2):55–64
Chen YD, Wang HY, Zhou JM, Xing L, Zhu BS, Zhao YC, Chen XQ (2013) Minimum data set for assessing soil quality in farmland of Northeast China. Pedosphere 23:564–576
Coyne MS, Thompson JA (2006) Math for soil scientists. Thomson Delmar learning, Cliſton Park, NY
D’Hose T, Cougnon M, De Vliegher A, Vandecasteele B, Viaene N, Cornelis W, Bockstaele VE, Reheul D (2014) The positive relationship between soil quality and crop production: a case study on the effect of farm compost application. Appl Soil Ecol 75:189–198
De Lima ACR, Hoogmoed W, Brussaard L (2008) Soil quality assessment in rice production systems: establishing a minimum data set. J Environ Qual 37:623
de Paul Obade V, Lal R (2016) Towards a standard technique for soil quality assessment. Geoderma 265:96–102
Degrande A, Schreckenberg K, Mbosso C, Anegbeh P, Okafor V, Kanmegne J (2006) Farmers’ fruit tree-growing strategies in the humid forest zone of Cameroon and Nigeria. Agrofor Syst 67:159–175
Deheuvels O, Avelino J, Somarriba E, Malezieux E (2012) Vegetation structure and productivity in cocoa-based agroforestry systems in Talamanca, Costa Rica. Agr Ecosyst Environ 149:181–188
Doran JW (2002) Soil health and global sustainability: translating science into practice. Agr Ecosyst Environ 88:119–127
Doran JW, Zeiss MR (2000) Soil health and sustainability: managing the biotic component of soil quality. Appl Soil Ecol 15:3–11
Dormon ENA, Van Huis A, Leeuwis C, Obeng-Ofori D, Sakyi-Dawson O (2004) Causes of low productivity of cocoa in Ghana: farmers’ perspectives and insights from research and the socio-political establishment. Wagening J Life Sci 52:237–259
Duguma B, Gochowski J, Bakala J (2001) Smallholder cacao (Theobroma cacao Linn.) cultivation in agroforestry systems of West and Central Africa: challenges and opportunities. Agrofor Syst 51:177–188
Ekanade O, Adesina FA, Egbe NE (1991) Sustaining tree crop production under intensive land use: an investigation into soil quality differentiation under varying cropping patterns in western Nigeria. J Environ Manage 32:105–113
Fu SS, Li PJ, Feng Q, Li XJ, Li P, Sun YB, Chen Y (2011) Soil quality degradation in a magnesite mining area. Pedosphere 21(1):98–106
Gbadegesin AS (1986) A method of identifying soil properties influencing crop yield: the example of maize in the savanna belt of southwestern Nigeria. Geoforum 17:109–118
Gee GW, Or DO (2002) Particle-size analysis. In: Dane JH, Topp GC (eds) Methods of soil analysis, Part 4. Soil physical properties, agronomy monograph 5. SSSA, Madison, WI, pp 225–275
Giuffré L, Romaniuk R, Conti ME, Bartoloni N (2006) Multivariate evaluation by quality indicators of no-tillage system in Argiudolls of rolling pampa (Argentina). Biol Fertil Soils 42:556–560
Gregory S (1963) Statistical methods and the geographer. Longman, London
Grossman RB, Reinsch RT (2002) Bulk density and linear extensibility: core method. In: Dane JH, Topp GC (eds) Methods of soil analysis. Part 4. Physical methods. Soil Science Society of America, Madison, pp 208–228
Gyau A, Smoot K, Kouame C, Diby L, Kahia J, Ofori D (2014) Farmer attitudes and intentions towards trees in cocoa (Theobroma cacao L.) farms in Cote d’Ivoire. Agrofor Syst 88(6):1035–1045
Hartemink AE (2005) Nutrient stocks, nutrient cycling, and soil changes in cocoa ecosystems: a review. Adv Agron 86:227–253
ICCO (2016) Quarterly bulletin of cocoa statistics, vol XLII, no 1, Cocoa year 2015/16 Published: 26-02-201. http://www.icco.org/about-us/international-cocoa-agreements/cat_view/30-related-documents/46-statistics-production.html
Isaac ME, Timmer VR, Quashie-Sam SJ (2007) Shade tree effects in an 8-year-old cocoa agroforestry system: biomass and nutrient diagnosis of Theobroma cacao by vector analysis. Nutr Cycl Agroecosyst 78(2):155–165
Jagoret P, Michel-Dounias I, Malézieux E (2011) Long-term dynamics of cocoa agroforests: a case study in central Cameroon. Agrofor Syst 81:267–278
Jagoret P, Snoeck D, Bouambi E, Ngnogue HT, Nyasse S, Saj S (2017) Rehabilitation practices that shape cocoa agroforestry systems in Central Cameroon: key management strategies for long-term exploitation. Agrofor Syst. https://doi.org/10.1007/s10457-016-0055-4
Jaiyeoba IA (1998) Changes in soil properties related to conversion of savannah woodland into pine and eucalyptus plantations, Northern Nigeria. Land Degrad Dev 9:207–215
Jaiyeoba IA (2001) Soil rehabilitation through afforestation: evaluation of the performance of Eucalyptus and pine plantations in a Nigerian Savanna environment. Land Degrad Dev 12:183–194
Juo ASR, Ayanlaja SA, Ogunwale JA (1976) An evaluation of cation exchange capacity measurements for soils in the tropics. Commun Soil Sci Plant Anal 7:751–761
Karlen DL, Andrews SS, Doran JW (2001) Soil quality: current concepts and applications. Adv Agron 74:1–40
Katalin J, Szilárd S, Márta L (2015) Influence of soil properties on crop yield: a multivariate statistical approach. Int Agrophys 29:425–432. https://doi.org/10.1515/intag-2015-0049
Knudsen MH (2007) Making a living in the cocoa frontier, Western Ghana: diversifying incomes in a cocoa economy. Geogr Tidsskr Dan J Geogr 107(2):29–44
Knudsen MH, Agergaard J (2016) Ghana’s cocoa frontier in transition: the role of migration and livelihood diversification. Geogr Ann Ser B 97:325–342
Koko LK, Snoeck D, Lekadou TT, Assiri AA (2013) Cacao-fruit tree intercropping effects on cocoa yield, plant vigour and light interception in Côte d’Ivoire Agroforestry systems 87: 1043–1052
Koko L (2014) Teractiv Cacao as a new fertilizer based reactive phosphate rock for cocoa productivity in Côte d’Ivoire: a participatory approach to update fertilization recommendation. Proc Eng 83:348–353
Kongor JE, de Steur H, van de Walle D, Gellynck X, Afoakwa EO, Boeckx P, Dewettinck K (2017) Constraints for future cocoa production in Ghana. Agrofor Syst. https://doi.org/10.1007/s10457-017-0082-9
Lal R (2006) Enhancing crop yields in developing countries through restoration of the soil organic carbon pool in agricultural lands. Land Degrad Dev 17:197–209
Latiff IA (2007) Cocoa industry of Malaysia. In: Arshad FM, Abdullah NMR, Kaur B, Mahir Abdullah A (eds) 50 years of Malaysian agriculture: transformational issues. Challenges and direction. Universiti Putra Malaysia, Serdang, Malaysia
Lemenih M, Olsson M, Karltun E (2004) Comparison of soil attributes under Cupressus lusitanica and Eucalyptus saligna established on abandoned farmlands with continuously cropped farmlands and natural forest in Ethiopia. For Ecol Manage 195:57–67
Li G, Chen J, Sun Z, Tan M (2007) Establishing a minimum dataset for soil quality assessment based on soil properties and land-use changes. Acta Ecol Sin 27(7):2715–2724
Lin Y, Deng H, Du K, Li J, Lin H, Chen C, Fisher L, Wu C, Hong T, Zang G (2017) Soil quality assessment in different climate zones of China’s Wenchuan earthquake affected region. Soil Tillage Res 165:315–324
Magne AN, Nonga NE, Yemefack M, Robiglio V (2014) Profitability and implications of cocoa intensification on carbon emissions in Southern Cameroun. Agrofor Syst 88(6):1133–1142
Mandal UK, Ramachandran K, Sharma KL, Satyam B, Venkanna K, Udaya BM, Mandal M, Masane RN, Narsimlu B, Rao KV, Srinivasarao CH, Korwar GR, Venkateswarlu B (2011) Assessing soil quality in a semiarid tropical watershed using a geographic information system. Soil Sci Soc Am J 75:1144–1160
Masto RE, Chhonkar PDS, Patra AK (2008) Alternative soil quality indices for evaluating the effect of intensive cropping, fertilisation and manuring for 31 years in the semi-arid soils of India. Environ Monit Assess 136:419–435
Masto RE, Chhonkar PK, Singh D, Patra AK (2009) Changes in soil quality indicators under long-term sewage irrigation in a sub-tropical environment. Eng Geol 56:1237–1243
Mejabi D (2012) The Nigerian cocoa value chain: vertical coordination for improved productivity. Cocoa Roundtable Workshop, Akure, 16th August, 2012, Agricultural Business Concepts Ltd
Montecchia MS, Correa OS, Soria MA, Frey SD, García AF, Garland JL (2011) Multivariate approach to characterizing soil microbial communities in pristine and agricultural sites in Northwest Argentina. Appl Soil Ecol 47(3):176–183
Munoz-Rojas M, Erickson TE, Dixon KW, Merritt DJ (2016) Soil quality indicators to assess functionality of restored soils in degraded semiarid ecosystems. Restor Ecol 24(S2):S43–S52
Nelson DW, Sommers LE (1982) Total carbon, organic carbon, and organic matter. In: Sparks DL, Page AL, Helmke PA, Loeppert RH (eds) Methods of soil analysis. Part 2. Chemical and microbiological properties. Soil Science Society of America, America Society of Agronomy, Wisconsin, WI, pp 539–579
Ngo-mbogba MM, Yemefack M, Nyeck B (2015) Assessing soil quality under different land cover types within shifting agriculture in South Cameroon. Soil Tillage Res 150:124–131
Norgrove L, Hauser S (2014) Improving plantain (Musa spp. AAB) yields on smallholder farms in West and Central Africa. Food Secur 6(4):501–514
Oberthur T, Dobermann A, Neue HU (1996) How good is a reconnaissance soil map for agronomic purposes? Soil Use Manag 12:33–43
Ogunlade MO, Oluyole KA, Aikpokpodion PO (2017) An evaluation of the level of fertilizer utilization for cocoa production in Nigeria. J Human Ecol 25(3):175–178
Okalebo JR, Gathua KW, Woomer WP (1993) Laboratory methods of soil and plant analysis: a working manual. TSBF-UNESCO, EPZ Publishers, Nairobi
Okusami TA, Rust RH, Alao AO (1997) Red soils of different origins from southwest Nigeria: characteristics, classification, and management considerations. Can J Soil Sci 77:295–307
Olsen SR, Sommers LE (1982) Phosphorus. In: Sparks DL, Page AL, Helmke PA, Loeppert RH (eds) Method of soil analysis: chemical and microbiological properties. Part 2. Agronomy monograph 9. Soil Science Society of America, America Society of Agronomy, Wisconsin, WI, pp 403–430
Olujide MG, Adeogun SO (2006) Assessment of cocoa growers’ farm management practices in Ondo State, Nigeria. Span J Agric Res 4(2):173–179
Peech M (1965) Hydrogen-ion activity. In: Black CA (ed) Methods of soil analysis, vol 2. American Society of Agronomy, Madison, pp 914–926
Pieri CJMG (1992) Fertility of soils: a future for farming in the West African Savannah. Springer, Berlin
Pitman R, Benham S, Poole J (2014) A chronosequence study of soil nutrient status under oak and Corsican pine with Ellenberg assessed ground vegetation changes. Forestry 87(2):287–300
Qi Y, Darilek JL, Huang B, Zhao Y, Sun W, Gu Z (2009) Evaluating soil quality indices in an agricultural region of Jiangsu Province, China. Geoderma 149(3–4):325–334
Rathfon RA, Burger JA (1990) Diagnosis and recommendation integrated system (DRIS) nutrient norms for Fraser fir Christmas trees. For Sci 37(4):998–1010
Reynolds WD, Elrick DE (2002) Constant head soil core (tank) method. In: Dane JH, Topp GC (eds) Methods of soil analysis. Part 4. Physical methods. Soil Science Society of America, America Society of Agronomy, Madison, WI, pp 804–808
Rezaei SA, Gilkes RJ, Andrews SS, Arzani H (2005) Soil quality assessment in semiarid rangeland in Iran. Soil Use Manag 21:402–409
Rice RA, Greenberg R (2000) Cacao cultivation and the conservation of biological diversity. Ambio 29(3):20–25
Sant’anna SAC, Fernandes MF, Ivo WMPM, Costa JLS (2009) Evaluation of soil quality indicators in sugarcane management in sandy loam soil. Pedosphere 19:312–322
Santana MBM, Cabala-Rosand P (1982) Dynamics of nitrogen in a shaded cacao plantation. Plant Soil 67(1–3):271–281
Scharenbroch BC, Catania M (2012) Soil quality attributes as indicators of urban tree performance. Arboric Urban For 38:214–228
Shapiro SS, Wilk MB (1965) An analysis of variance test for normality (complete samples). Biometrika 52(3/4):591–611
Sharma KL, Mandal UK, Srinivas K, Vittal KPR, Mandal B, Grace JK, Ramesh V (2005) Long-term soil management effects on crop yields and soil quality in a dryland Alfisol. Soil Tillage Res 83:246–259
Sharma KL, Raju R, Das SK, Rao Prasad BRC, Kulkarni BS, Srinivas K, Grace JK, Madhavi M, Gajbhiye PN (2009) Soil fertility and quality assessment under tree-, crop-, and pasture-based land-use systems in a rainfed environment. Commun Soil Sci Plant Anal 40:1436–1461
Shukla MK, Lal R, Ebinger M (2004a) Soil quality indicators for the north Appalachian experimental watersheds in Coshocton Ohio. Soil Sci 169:195–205
Shukla MK, Lal R, Ebinger M (2004b) Principal component analysis for predicting corn biomass and grain yields. Soil Sci 169:215–224
Singh AK (2007) Evaluation of soil quality under integrated nutrient management. J Indian Soc Soil Sci 55(1):58–61
Smiley GL, Kroschel J (2010) Yield development and nutrient dynamics in cocoa-gliricidia agroforests of Central Sulawesi, Indonesia. Agrofor Syst 78:97–114
Smith Dumont E, Gnahoua GM, Ohouo L, Sinclair FL, Vaast P (2014) Farmers in Cote d’Ivoire value integrating tree diversity in cocoa for the provision of ecosystem services. Agrofor Syst 88:1047–1066
Smyth AJ, Montgomery RF (1962) Soils and land use in central western Nigeria. Government Printer, Ibadan, Nigeria
Snoeck D, Abolo D, Jagoret P (2010) Temporal changes in VAM fungi in the cocoa agroforestry systems of central Cameroon. Agrofor Syst 78:323–328
Soil Survey Staff (2006) Keys to soil taxonomy, 10th edn. USDA-Natural Resources Conservation Service, Washington, DC
Somarriba E, Beer J (2010) Productivity of Theobroma cacao agroforestry systems with timber or legume service shade trees. Agrofor Syst 81:109–121
Sonwa DJ, Weise SF, Schroth G, Janssens Marc JJ, Sappiro H (2014) Plant diversity management in cocoa agroforestry systems in West and Central Africa—effects of markets and household needs. Agrofor Syst 88(214):1021–1034
Sonwa DJ, Weise SF, Nkongmeneck BA, Tchatat M, Janssens MJJ (2016) Structure and composition of cocoa agroforests in the humid forest zone of Southern Cameroon. Agrofor Syst. https://doi.org/10.1007/s10457-016-9942-y
Sun XL, Zhao YG, Wu YJ, Zhao MS, Wang HL, Zhang GL (2012) Spatio-temporal change of soil organic matter content of Jiangsu Province, China, based on digital soil maps. Soil Use Manag 28:318–328
Tchienkoua JM, Njomgang R, Nolte C, Sanginga N, Takow J (2008) Relationship of soil qualities to maize growth under increasing phosphorus supply in acid soils of southern Cameroon. Pedosphere 18:645–652
Tesfahunegn GB (2016) Soil quality indicators response to land use and soil management systems in northern Ethiopia’s catchment. Land Degrad Dev 27:438–448
Tesfahunegn GB, Tamene L, Vlek PLG (2011) Evaluation of soil quality identified by local farmers in Mai-Negus catchment, northern Ethiopia. Geoderma 163(3–4):209–218
Tondoh JE, Kouamé FN, Martinez Guéi A, Sey B, Wowo-Koné A, Gnessougou N (2015) Ecological changes induced by full-sun cocoa farming in Côte d’Ivoire. Glob Ecol Conserv 3:575–595
Trabaquini K, Galvão LS, Formaggio AR, Eduardo AL (2017) Soil, land use time, and sustainable intensification of agriculture in the Brazilian Cerrado region. Environ Monit Assess. https://doi.org/10.1007/s10661-017-5787-8
van Vliet JA, Giller KE (2017) Mineral nutrition of cocoa: a review. Adv Agron 141:185–270
Walker LR, Wardle DA, Bardgett RD, Clarkson BD (2010) The use of chronosequences in studies of ecological succession and soil development. J Ecol 98(4):725–736
Wang JH, Lu XG, Jiang M, Li XY, Tian JH (2009) Fuzzy synthetic evaluation of wetland soil quality degradation: a case study on the Sanjiang Plain, Northeast China. Pedosphere 19:756–764
Wartenberg AC, Blaser WJ, Gattinger A, Roshetko JM, Van Noordwijk M, Six J (2017) Does shade tree diversity increase soil fertility in cocoa plantations? Agr Ecosyst Environ 248:190–199
Wessel M (1971) Fertilizer requirements of cacao (Theobroma cacao L.) in South-Western Nigeria. Communication 61, pp. 104. Koninklijk Instituut voor de Tropen, Amsterdam
Wessel M, Quist-Wessel PMF (2015) Cocoa production in West Africa, a review and analysis of recent developments. NJAS 75:1–7
Widiatmaka A, Iswandi A, Daras U, Hikmat M, Krisnohadi A (2014) Establishing land suitability criteria for cashew (Anacardium occidentale L.) in Indonesia. Appl Environ Soil Sci 2014:1–14
Wienhold BJ, Andrews SS, Karlen DL (2004) Soil quality: a review of the science and experiences in the USA. Environ Geochem Health 26:89–95
Wildemeersch JCJ, Garba M, Sabiou M, Sleutel S, Cornelis W (2015) The effect of water and soil conservation (WSC) on the soil chemical, biological, and physical quality of a plinthosol in Niger. Land Degrad Dev. https://doi.org/10.1002/ldr.2416
Wilson BR, Growns I, Lemon J (2008) Land-use effects on soil carbon and other soil properties on the NW slopes of NSW: implications for soil condition assessment. Aust J Soil Res 46:359–367
Wilson BR, Koen TB, Barnes P, Ghosh S, King D (2011) Soil carbon and related soil properties along a soil type and land-use intensity gradient, New South Wales, Australia. Soil Use Manag 27(4):437–447
World Reference Base for Soil Resources (WRB) (2006) A framework for international classification, correlation and communication. FAO, Rome
Xia M, Zhao B, Hao X, Zhang J (2015) Soil quality in relation to agricultural production in the North China Plain. Pedosphere 25(4):592–604
Xue YJ, Liu SG, Hu YM, Yang JF (2010) Soil quality assessment using weighted fuzzy association rules. Pedosphere 20(3):334–341
Yemefack M (2005) Modelling and monitoring soil and land use dynamics within shifting agricultural landscape mosaic systems in southern Cameroon ITC Dissertation 121. ITC Enschede and Utrecht University, The Netherlands
Yemefack M, Jetten VG, Rossiter DG (2006) Developing a minimum data set for characterizing soil dynamics under shifting cultivation systems in south Cameroon. Soil Tillage Res 86:84–96
Zeng X, Zhang W, Cao J, Liu X, Shen H, Zhao X (2014) Changes in soil organic carbon, nitrogen, phosphorus, and bulk density after afforestation of the “Beijing–Tianjin Sandstorm Source Control” program in China. CATENA 118:186–194
Zornoza R, Acosta JA, Bastida F, Domínguez SG, Toledo DM, Faz A (2015) Identification of sensitive indicators to assess the interrelationship between soil quality, management practices and human health. Soil 1(1):173–185
Acknowledgments
The authors would like to thank LinguaFix (http://www.linguafix.net/) for their valuable editorial inputs during the preparation of this manuscript.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Adeniyi, S.A., de Clercq, W.P. & van Niekerk, A. Assessing the relationship between soil quality parameters of Nigerian alfisols and cocoa yield. Agroforest Syst 93, 1235–1250 (2019). https://doi.org/10.1007/s10457-018-0238-2
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10457-018-0238-2