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Plant sciences, sustainable farming systems and food quality
RESEARCH ARTICLE

Performance of legume-based annual forage crops in three semi-arid Mediterranean environments

P. Annicchiarico A E , I. Thami Alami B , K. Abbas C , L. Pecetti A , R. A. M. Melis D and C. Porqueddu D
+ Author Affiliations
- Author Affiliations

A Council for Agricultural Research and Economics (CREA), Research Centre for Fodder Crops and Dairy Productions, Lodi, Italy.

B Institut National de la Recherche Agronomique (INRA), Centre Régional de Rabat, Rabat, Morocco.

C Institut National de la Recherche Agronomique d’Algerie (INRAA), Agro-system East Division, Sétif, Algeria.

D National Research Council (CNR), Institute for the Animal Production System in the Mediterranean Environment, Sassari, Italy.

E Corresponding author. Email: paolo.annicchiarico@crea.gov.it

Crop and Pasture Science 68(11) 932-941 https://doi.org/10.1071/CP17068
Submitted: 15 February 2017  Accepted: 23 June 2017   Published: 4 August 2017

Abstract

Legume-based annual forages could be pivotal for the sustainable intensification of forage production in drought-prone Mediterranean cereal-livestock systems. This study aimed to optimise the composition of these crops for three climatically contrasting areas. Four legumes (field pea of semi-dwarf and tall type; Narbon vetch; common vetch) and two cereals (oat; triticale) were grown in three autumn-sown sites (Sassari, Italy; Sétif, Algeria; Marchouch, Morocco) for 2 years as pure stands and legume-cereal binary and four-component mixtures. We assessed dry matter yield, weed content and farmers’ acceptability of the crops, and legume content and Land Equivalent Ratio of the mixtures. Legumes’ competitive disadvantage ranged from very high in Sétif to nearly nil in Sassari. Pea- and common vetch-based mixtures out-performed Narbon vetch-based ones in terms of yield, legume content and farmers’ acceptability. The tall pea, featuring greatest competitive ability against cereals, maximised the yield and legume content of legume-cereal crops. Vetch-cereal mixtures exhibited lower weed content than the average of the components’ pure stands. Oat monoculture was top-yielding but modestly appreciated by farmers. Pea provided the only legume monoculture combining good yielding ability and high farmers’ appreciation. Greater species diversity as provided by complex mixtures did not display any production advantage over binary mixtures.

Additional keywords: drought stress, farmer participatory approaches, intercropping, Pisum sativum, plant competition, Vicia.


References

Alessandri A, De Felice M, Zeng N, Mariotti A, Pan Y, Cherchi A, Lee J-Y, Wang B, Ha K-J, Ruti P, Artale V (2014) Robust assessment of the expansion and retreat of Mediterranean climate in the 21st century. Scientific Reports 4, 7211
Robust assessment of the expansion and retreat of Mediterranean climate in the 21st century.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC2MXksVWjtrg%3D&md5=c5002ef2b5bc123636b368d34fff381cCAS |

Andersen MK, Hauggaard-Nielsen H, Ambus P, Jensen ES (2005) Biomass production, symbiotic nitrogen fixation and inorganic N use in dual and tri-component annual intercrops. Plant and Soil 266, 273–287.
Biomass production, symbiotic nitrogen fixation and inorganic N use in dual and tri-component annual intercrops.Crossref | GoogleScholarGoogle Scholar |

Anil L, Park RHP, Miller FA (1998) Temperate intercropping of cereals for forage: a review of the potential for growth and utilization with particular reference to the UK. Grass and Forage Science 53, 301–317.
Temperate intercropping of cereals for forage: a review of the potential for growth and utilization with particular reference to the UK.Crossref | GoogleScholarGoogle Scholar |

Annicchiarico P, Filippi L (2007) A field pea ideotype for organic systems of northern Italy. Journal of Crop Improvement 20, 193–203.
A field pea ideotype for organic systems of northern Italy.Crossref | GoogleScholarGoogle Scholar |

Annicchiarico P, Iannucci A (2008) Adaptation strategy, germplasm type and adaptive traits for field pea improvement in Italy based on variety responses across climatically contrasting environments. Field Crops Research 108, 133–142.
Adaptation strategy, germplasm type and adaptive traits for field pea improvement in Italy based on variety responses across climatically contrasting environments.Crossref | GoogleScholarGoogle Scholar |

Annicchiarico P, Piano E (1994) Interference effects in white clover genotypes grown as pure stands and binary mixtures with different grass species and varieties. Theoretical and Applied Genetics 88, 153–158.
Interference effects in white clover genotypes grown as pure stands and binary mixtures with different grass species and varieties.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BC2c7isVOqtg%3D%3D&md5=b3493b44ff6a66cb620880a4c8035f67CAS |

Annicchiarico P, Proietti S (2010) White clover selected for competitive ability widens the compatibility with grasses and favours the optimization of legume content and forage yield in mown clover-grass mixtures. Grass and Forage Science 65, 318–324.
White clover selected for competitive ability widens the compatibility with grasses and favours the optimization of legume content and forage yield in mown clover-grass mixtures.Crossref | GoogleScholarGoogle Scholar |

Annicchiarico P, Ruda P, Sulas C, Pitzalis M, Salis M, Romani M, Carroni AM (2012) Optimal plant type of pea for mixed cropping with cereals. In ‘Breeding strategies for sustainable forage and turf grass improvement’. (Eds S Barth, D Milbourne) pp. 341–346. (Springer Science: Dordrecht, The Netherlands)

Annicchiarico P, Thami Alami I, Souihka A, Pecetti L (2017) Breeding, design and assessment of annual and perennial legume-based forage crops. Grassland Science in Europe 22, 292–295.

Ates S, Feindel D, El-Moneim A, Ryan J (2014) Annual forage legumes in dryland agricultural systems of the West Asia and North Africa Regions: research achievements and future perspective. Grass and Forage Science 69, 17–31.
Annual forage legumes in dryland agricultural systems of the West Asia and North Africa Regions: research achievements and future perspective.Crossref | GoogleScholarGoogle Scholar |

Bedoussac L, Justes E (2010) Dynamic analysis of competition and complementarity for light and N use to understand the yield and the protein content of a durum wheat–winter pea intercrop. Plant and Soil 330, 37–54.
Dynamic analysis of competition and complementarity for light and N use to understand the yield and the protein content of a durum wheat–winter pea intercrop.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3cXktFCjs7g%3D&md5=1d7b40246c291ad230881bdefc0fd622CAS |

Brophy C, Finn JA, Lüscher A, Suter M, Kirwan L, Sebastià M-T, Helgadóttir Á, Baadshaug OH, Bélanger G, Black A, Collins RP, Čop J, Dalmannsdottir S, Delgado I, Elgersma A, Fothergill M, Frankow-Lindberg BE, Ghesquiere A, Golinska B, Golinski P, Grieu P, Gustavsson A-M, Höglind M, Huguenin-Elie O, Jørgensen M, Kadziuliene Z, Kurki P, Llurba R, Lunnan T, Porqueddu C, Thumm U, Connolly J (2017) Major shifts in species’ relative abundance in grassland mixtures alongside positive effects of species diversity in yield: a continental-scale experiment. Journal of Ecology
Major shifts in species’ relative abundance in grassland mixtures alongside positive effects of species diversity in yield: a continental-scale experiment.Crossref | GoogleScholarGoogle Scholar | in press.

Caballero R, Goicoechea EL, Hernaiz PJ (1995) Forage yields and quality of common vetch and oat sown at varying seeding ratios and seeding rates of vetch. Field Crops Research 41, 135–140.
Forage yields and quality of common vetch and oat sown at varying seeding ratios and seeding rates of vetch.Crossref | GoogleScholarGoogle Scholar |

Carita T, Simões N, Carneiro JP, Moreira J, Bagulho AS (2016) Forage yield and quality of simple and complex grass-legumes mixtures under Mediterranean conditions. Emirates Journal of Food and Agriculture 28, 501–505.
Forage yield and quality of simple and complex grass-legumes mixtures under Mediterranean conditions.Crossref | GoogleScholarGoogle Scholar |

Ceccarelli S, Guimarães EP, Weltzien E (2009) ‘Plant breeding and farmer participation.’ (FAO: Rome)

Cellier P, Schneider A, Thiébeau P, Vertès F (2015) Impacts environnementaux de l’introduction de légumineuses dans les systèmes de production. In ‘Les légumineuses pour des systèmes agricoles et alimentaires durables’. (Eds A Schneider, C Huyghe) pp. 297–338. (Editions Quae: Versailles, France)

Chapagain T, Riseman A (2014) Barley-pea intercropping: effects on land productivity, carbon and nitrogen transformations. Field Crops Research 166, 18–25.
Barley-pea intercropping: effects on land productivity, carbon and nitrogen transformations.Crossref | GoogleScholarGoogle Scholar |

Chapko LB, Brinkman MA, Albrecht KA (1991) Oat, oat-pea, barley, and barley-pea for forage yield, forage quality, and alfalfa establishment. Journal of Production Agriculture 4, 486–491.
Oat, oat-pea, barley, and barley-pea for forage yield, forage quality, and alfalfa establishment.Crossref | GoogleScholarGoogle Scholar |

Corre-Hellou G, Fustec J, Crozat Y (2006) Interspecific competition for soil N and its interaction with N2 fixation, leaf expansion and crop growth in pea-barley intercrops. Plant and Soil 282, 195–208.
Interspecific competition for soil N and its interaction with N2 fixation, leaf expansion and crop growth in pea-barley intercrops.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD28XmtVOqurg%3D&md5=45e0e21dfeee46fba122700940f0bc2cCAS |

Delgado C, Rosegrant M, Steinfeld H, Ehui S, Courbois C (1999) ‘Livestock to 2020: the next food revolution.’ (IFPRI: Washington, DC)

Ehrmann J, Ritz K (2014) Plant: soil interactions in temperate multi-cropping production systems. Plant and Soil 376, 1–29.
Plant: soil interactions in temperate multi-cropping production systems.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3sXhslaqsLvK&md5=f086726ca9b8adac25dabebe139f8f74CAS |

FAO (2010) ‘The state of food and agriculture. Livestock in the balance.’ (FAO: Rome)

Harper JL (1977) ‘Population biology of plants.’ (Academic Press: London)

Harris W (1987) Population dynamics and competition. In ‘White clover’. (Eds MJ Baker, WM Williams) pp. 203–297. (CAB International: Wallingford, UK)

Hauggaard-Nielsen H, Jensen ES (2001) Evaluating pea and barley cultivars for complementarity in intercropping at different levels of soil N availability. Field Crops Research 72, 185–196.
Evaluating pea and barley cultivars for complementarity in intercropping at different levels of soil N availability.Crossref | GoogleScholarGoogle Scholar |

Hauggaard-Nielsen H, Ambus P, Jensen ES (2001) Interspecific competition, N use and interference with weeds in pea-barley intercropping. Field Crops Research 70, 101–109.
Interspecific competition, N use and interference with weeds in pea-barley intercropping.Crossref | GoogleScholarGoogle Scholar |

IPCC (2007) ‘Climate change 2007: impacts, adaptation and vulnerability. Contribution of Working group II to the fourth assessment report of the Intergovernmental Panel on Climate Change.’ (Cambridge University Press: Cambridge, UK)

Jedel PE, Helm JH (1993) Forage potential of pulse-cereal mixtures in central Alberta. Canadian Journal of Plant Science 73, 437–444.
Forage potential of pulse-cereal mixtures in central Alberta.Crossref | GoogleScholarGoogle Scholar |

Jensen ES (1996) Barley uptake of N deposited in the rhizosphere of associated field pea. Soil Biology & Biochemistry 28, 159–168.
Barley uptake of N deposited in the rhizosphere of associated field pea.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK28XhtlCltbc%3D&md5=d9b7e7aeb2f0506554a6f5d1643ecd0bCAS |

Kirwan L, Lüscher A, Sebastià MT, Finn JA, Collins RP, Porqueddu C, Helgadottir A, Baadshaug OH, Brophy C, Coran C, Dalmannsdóttir S, Delgado I, Elgersma A, Fothergill M, Frankow-Lindberg BE, Golinski P, Grieu P, Gustavsson AM, Höglind M, Huguenin-Elie O, Iliadis C, Jørgensen M, Kadziuliene Z, Karyotis T, Lunnan T, Malengier M, Maltoni S, Meyer V, Nyfeler D, Nykanen-Kurki P, Parente J, Smit HJ, Thumm U, Connolly J (2007) Evenness drives consistent diversity effects in intensive grassland systems across 28 European sites. Journal of Ecology 95, 530–539.
Evenness drives consistent diversity effects in intensive grassland systems across 28 European sites.Crossref | GoogleScholarGoogle Scholar |

Kurdali F, Sharabi NE, Arslan A (1996) Rainfed vetch-barley mixed cropping in the Syrian semi-arid conditions: I. Nitrogen nutrition using 15N isotopic dilution. Plant and Soil 183, 137–148.
Rainfed vetch-barley mixed cropping in the Syrian semi-arid conditions: I. Nitrogen nutrition using 15N isotopic dilution.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK28Xnt1arsbc%3D&md5=6308cb06660e95e6677a1fbe3e1d8b39CAS |

Lemerle D, Gill GS, Murphy CE, Walker SR, Cousens RD, Mokhtari S, Peltzer SJ, Coleman R, Luckett DJ (2001) Genetic improvement and agronomy for enhanced wheat competitiveness with weeds. Australian Journal of Agricultural Research 52, 527–548.
Genetic improvement and agronomy for enhanced wheat competitiveness with weeds.Crossref | GoogleScholarGoogle Scholar |

Liebman M, Dyck E (1993) Crop rotation and intercropping strategies for weed management. Ecological Applications 3, 92–122.
Crop rotation and intercropping strategies for weed management.Crossref | GoogleScholarGoogle Scholar |

Lithourgidis AS, Vasilakoglu IB, Dhima KV, Dordas CA, Yiakoulaki MD (2006) Forage yield and quality of common vetch mixtures with oat and triticale in two seeding ratios. Field Crops Research 99, 106–113.
Forage yield and quality of common vetch mixtures with oat and triticale in two seeding ratios.Crossref | GoogleScholarGoogle Scholar |

Lithourgidis AS, Vlachostergios DN, Dordas CA, Damalas CA (2011) Dry matter yield, nitrogen content, and competition in pea-cereal intercropping systems. European Journal of Agronomy 34, 287–294.
Dry matter yield, nitrogen content, and competition in pea-cereal intercropping systems.Crossref | GoogleScholarGoogle Scholar |

Mariotti M, Masoni A, Ercoli L, Arduini I (2006) Forage potential of winter cereal/legume intercrops in organic farming. Italian Journal of Agronomy 1, 403–412.
Forage potential of winter cereal/legume intercrops in organic farming.Crossref | GoogleScholarGoogle Scholar |

McDonald GK (2003) Competitiveness against grass weeds in field pea genotypes. Weed Research 43, 48–58.
Competitiveness against grass weeds in field pea genotypes.Crossref | GoogleScholarGoogle Scholar |

Mead R, Willey RW (1980) The concept of a land equivalent ratio and advantages in yields for intercropping. Experimental Agriculture 16, 217–228.
The concept of a land equivalent ratio and advantages in yields for intercropping.Crossref | GoogleScholarGoogle Scholar |

Monti M, Pellicanò A, Santonoceto C, Preiti G, Pristeri A (2016) Yield components and nitrogen use in cereal-pea intercrops in Mediterranean environment. Field Crops Research 196, 379–388.
Yield components and nitrogen use in cereal-pea intercrops in Mediterranean environment.Crossref | GoogleScholarGoogle Scholar |

Moreira N (1989) The effect of seed rate and nitrogen fertilizer on the yield and nutritive value of oat-vetch mixtures. The Journal of Agricultural Science 112, 57–66.
The effect of seed rate and nitrogen fertilizer on the yield and nutritive value of oat-vetch mixtures.Crossref | GoogleScholarGoogle Scholar |

Nemecek T, Von Richthofen J-S, Dubois G, Casta P, Charles R, Pahl H (2008) Environmental impact of introducing grain legumes into European crop rotations. European Journal of Agronomy 28, 380–393.
Environmental impact of introducing grain legumes into European crop rotations.Crossref | GoogleScholarGoogle Scholar |

Neugschwandtner RW, Kaul H-P (2014) Sowing ratio and N fertilization affect yield and yield components of oat and pea in intercrops. Field Crops Research 179, 113–119.
Sowing ratio and N fertilization affect yield and yield components of oat and pea in intercrops.Crossref | GoogleScholarGoogle Scholar |

Odabaş MS, Mut Z (2007) Modeling the effect of temperature on percentage and duration of seed germination in grain legumes and cereals. American Journal of Plant Physiology 2, 303–310.

Perenzin M, Notario T (2014) Le varietà di avena per le semine 2014. L’Informatore Agrario 70, 55–58.

Picasso VD, Brummer EC, Liebman M, Dixon PM (2011) Diverse perennial crop mixtures sustain higher productivity over time based on ecological complementarity. Renewable Agriculture and Food Systems 26, 317–327.
Diverse perennial crop mixtures sustain higher productivity over time based on ecological complementarity.Crossref | GoogleScholarGoogle Scholar |

Sadras V, Dreccer MF (2015) Adaptation of wheat, barley, canola, field pea and chickpea to the thermal environments of Australia. Crop & Pasture Science 66, 1137–1150.
Adaptation of wheat, barley, canola, field pea and chickpea to the thermal environments of Australia.Crossref | GoogleScholarGoogle Scholar |

Schipanski ME, Drinkwater LE (2012) Nitrogen fixation in annual and perennial legume-grass mixtures across a fertility gradient. Plant and Soil 357, 147–159.
Nitrogen fixation in annual and perennial legume-grass mixtures across a fertility gradient.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC38XhtVegt7nP&md5=bc7b8527ca898294c98912a8b966a857CAS |

Siddique KHM, Loss SP, Regan KL, Jettner RL (1999) Adaptation and seed yield of cool season grain legumes in Mediterranean environments of south-western Australia. Australian Journal of Agricultural Research 50, 375–388.
Adaptation and seed yield of cool season grain legumes in Mediterranean environments of south-western Australia.Crossref | GoogleScholarGoogle Scholar |

Thomson BD, Siddique KHM, Barr MD, Wilson JM (1997) Grain legume species in low rainfall Mediterranean-type environments. I. Phenology and seed yield. Field Crops Research 54, 173–187.
Grain legume species in low rainfall Mediterranean-type environments. I. Phenology and seed yield.Crossref | GoogleScholarGoogle Scholar |

Zandstra HG, Price EC, Litsinger JA, Morris RA (1981) ‘A methodology for on-farm cropping system research.’ (IRRI: Manila, The Philippines)