Grain yield and quality characteristics of different genotypes of winter pea in comparison to spring pea for organic farming in pure and mixed stands

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• 作者：Peer Urbatzka (1)
  Rüdiger Gra? (2)
  Thorsten Haase (2)
  Christian Schüler (2)
  Dieter Trautz (3)
  Jürgen He? (2)
  
• 关键词：Pisum sativum ; Grain legumes ; Mixture ; Weed suppression ; Resistance to lodging
• 刊名：Organic Agriculture
• 出版年：2011
• 出版时间：November 2011
• 年：2011
• 卷：1
• 期：4
• 页码：187-202
• 全文大小：322KB
• 参考文献：1. Andersen MK, Hauggaard-Nielsen H, Ambus P, Jensen ES (2004) Biomass production, symbiotic nitrogen fixation and inorganic N use in dual and tri-component annual intercrops. Plant Soil 266:273-87 CrossRef
  2. Aufhammer W (1999) Mischanbau von Getreide- und anderen K?rnerfruchtarten. Eugen Ulmer, Stuttgart
  3. Bastianelli D, Grosjean F, Peyronnet C, Duparque M, Régnier JM (1998) Feeding value of pea ( / Pisum sativum L.), 1. Chemical composition of different categories of pea. Anim Sci 67:609-19 CrossRef
  4. Brown MB, Forsythe AB (1974) Robust tests for the equality of variances. J Americ Statist Assoc 69:364-67 CrossRef
  5. Brenes A, Marquardt RR, Guenter W, Rotter BA (1993) Effect of enzyme supplementation on the nutritional value of raw, autoclaved, and dehulled lupins ( / Lupinus albus) in chicken diets. Poultry Sci 72:2281-293
  6. Bundessortenamt (2000) Richtlinien für die Durchführung von landwirtschaftlichen Wertprüfungen und Sortenversuchen. Landbuch, Hannover
  7. Corre-Hellou G, Crozat Y (2005) N₂ fixation and N supply in organic pea ( / Pisum sativum L.) cropping systems as affected by weeds and peaweevil ( / Sitona lineatus L.). Eur J Agr 22:449-58 CrossRef
  8. de Wit CT, van den Bergh JP (1965) Competition between herbage plants. Neth J Agr Sci 13:212-21
  9. Duffner J, Jensen U, Schuhmacher E (2004) Statistik mit SAS, 3rd edn. B G Teubner, Wiesbaden CrossRef
  10. Fontaine J, Bech-Andersen S, Bütikofer U, de Froidmont-G?rtz I (1998) Determination of tryptophan in feed by HPLC—development of an optimal hydrolysis and extraction procedure by the EU Commission DG XII in three international collaborative studies. Agribiological Res 51:97-08
  11. Francis TR, Kannenberg LW (1978) Yield stability studies in short-season Maize. I A descriptive method for grouping genotypes. Can J Plant Sci 58:1029-034 CrossRef
  12. Gatel F, Grosjean F (1990) Composition and nutritive value of peas for pigs: a review of European results. Livest Prod Sci 26:155-75 CrossRef
  13. Geisler G (1983) Ertragsphysiologie von Kulturarten des gem??igten Klimas. Paul Parey, Berlin and Hamburg, pp 129-50
  14. Gra? R (2003) Direkt-und Sp?tsaat von Silomais-Ein neues Anbausystem zur Reduzierung von Umweltgef?hrdungen und Anbauproblemen bei Optimierung der Ertr?ge. Dissertation, University of Kassel–Witzenhausen, Germany, Cuvillier, G?ttingen
  15. Grosjean F, Bastianelli D, Bourdillon A, Cernau P, Jondreville C, Peyronnet C (1998) Feeding value of pea ( / Pisum sativum L.), 2. Nutritional value in the pig. Anim Sci 67:621-25 CrossRef
  16. Hauggaard-Nielsen H, Jensen ES (2001) Evaluating pea and barley cultivars for complementarity in intercropping at different levels of soil N availability. Field Crops Res 72:185-96 CrossRef
  17. Hauggaard-Nielsen H, Gooding M, Ambus P, Corre-Hellou G, Crozat Y, Dahlmann C, Dibet A, von Fragstein P, Pristeri A, Monti M, Jensen ES (2009) Pea-barley intercropping for efficient symbiotic N₂-fixation, soil N acquisition and use of other nutrients in European organic cropping systems. Field Crop Res 113:64-1 CrossRef
  18. Haverkort AJ, Verhagen A (2008) Climate change and its repercussions for the potato supply chain. Potato Res 51:223-37 CrossRef
  19. Hl?dversson R (1987) The nutritive value of white and dark flowered cultivars of pea for growing-finishing pigs. Anim Feed Sci Technol 17:245-55 CrossRef
  20. International Organization for Standardization (2008) ISO 12099-animal feeding stuffs, cereals and milled cereal products. Guidelines for the application of near infrared spectrometry.
  21. Jensen ES (1996) Grain yield, symbiotic N₂ fixation and interspecific competition for inorganic N in pea-barley intercrops. Plant Soil 182:25-8 CrossRef
  22. Jondreville C, Grosjean F, Buron G, Peronnet C, Beneytout JL (1992) Comparison of four pea varieties in pig feeding through digestibility and growth performance results. J Anim Phys and Anim Nutr 68(3):113-22 CrossRef
  23. Knott CM (1987) A key for stage of development of the pea ( / Pisum sativum L.). Ann Appl Biol 111:233-44 CrossRef
  24. Leterme P, Monmart T, Théwis A (1992) Varietal distribution of trypsin inhibitors in peas. Proceedings of the 1st European conference on grain legume, Angers, France, pp 415-16
  25. Leterme P, Grosjean F, Carrouée B (1993) A great intervarietal diversity of TIA in peas. Grain Legumes 1:22-3
  26. Llames CR, Fontaine J (1994) Determination of amino acids in feeds: collaborative study. J AOAC Int 77:1362-402
  27. Min BC, Barry TN, Attwood GT, McNabb WC (2003) The effect of condensed tannins on the nutrition and health of ruminants fed fresh temperate forages: a review. Anim Feed Sci Technol 106:3-9 CrossRef
  28. Muell F, Carrouée B, Grossjean F (1998) Trypsin inhibitors activity of pea cultivars: new data and a proposal strategy for breeding programme. Proceedings of the 3rd European Conference on Grain Legumes “Opportunities for high quality, healthy and added-value crops to meet European demands- Valladolid, Spain, pp 164-65
  29. Murray GA, Swensen JB (1985) Seed yield of Austrian winter peas intercropped with winter cereals. Agron J 77:913-16 CrossRef
  30. Oluwatosin OB (1999) Genotype?×?environment influence on cowpea ( / Vignia unguiculata (L.) Walp) antinutrinional factors: 1–trypsin inhibitor, tannins, phytic acid and haemagglutinin. J Sci Food Agric 79:265-72 CrossRef
  31. Pang XP, Letey J (2000) Organic farming: challenge of timing nitrogen availability to crop nitrogen requirements. Soil Sci Soc Am J 64:247-53 CrossRef
  32. Piepho HP (2000) Multiple treatment comparisons in linear models when the standard error of a difference is not constant. Biometrical J 42:823-35 CrossRef
  33. Piepho HP, Büchse A, Emmerich K (2003) A hitchhikers guide to the mixed model analysis of randomized experiments. J Agron Crop Sci 189:310-22 CrossRef
  34. Piepho HP, Williams ER, Fleck M (2006) A note on the analysis of designed experiments with complex treatment structure. HortSci 41:446-52
  35. Poggio SL (2005) Structure of weed communities occurring in monoculture and intercropping of field pea and barley. Agric Ecosyst Environ 109:48-8 CrossRef
  36. Porter LJ, Hrstich LN, Chan BC (1986) The conversion of procyanidins and prodelphinidins to cyanidin and delphinidin. Phytochem 25:223-30 CrossRef
  37. Quintern M, J?rgensen RG, Wildhagen H (2006) Permanent soil monitoring sites for documentation of soil-fertility development after changing from conventional to organic farming. J Plant Nutr Soil Sci 169:564-72 CrossRef
  38. Sachs L (1992) Angewandte Statistik, 7th edn. Springer, Berlin
  39. SAS (2004) SAS/ETS? 9.1, user′s guide. 4 edition. SAS Institute In., ISBN 1-59047-412-0
  40. Sass O (2009) Market situation and breeding input in faba beans and field peas in the EU. J Cultiv Plants 61(9):306-08
  41. Saucke H, Ackermann K (2006) Weed suppression in mixed cropped grain peas and false flax ( / Camelina sativa). Weed Res 46:453-61 CrossRef
  42. Sauermann W, Gronow J (2007) Rohproteingehalte von Ackerbohnen, Futtererbsen und blauen Sü?lupinen in Abh?ngigkeit von Sorte, Standort und Jahr. In: Sortenversuche 2006 mit Winterraps und Sonnenblumen. UFOP-Schriften 31:193-31
  43. Schouls J, Langelaan G (1994) Lodging and yield of dry peas ( / Pisum sativum L.) as influenced by various mixing ratios of a conventional and a semi-leafless cultivar. J Agron Crop Sci 172:207-14 CrossRef
  44. Smith C, van Megen W, Twaalfhoven L, Hitchcock C (1980) The determination of trypsin inhibitor levels in foodstuffs. J Sci Food Agric 31:341-50 CrossRef
  45. Stelling D (1996) Pflanzenzüchtung. In: Brinkmann J, Abel Hj (eds). Potentiale und Perspektiven des K?rnerleguminosen Anbaus in Deutschland. UFOP-Schriften 3:125-59
  46. Stelling D (1997) Dry peas ( / Pisum sativum L.) grown in mixtures with Faba beans ( / Vicia faba L.)—a rewarding cultivation alternative. J Agron Crop Sci 179:65-4 CrossRef
  47. Stelling D (1999) Biologische und ?kologische Grundlagen. In: Keller ER (ed) Handbuch des Pflanzenbaus, Wurzel-und Knollenfrüchte, K?rner-und Futterleguminosen, vol 3. Eugen Ulmer, Stuttgart, pp 563-75
  48. Stoddard FL, Balko C, Erskine W, Khan HR, Link W, Sarker A (2006) Screening technique and sources of resistance to abiotic stresses in cool-season food legumes. Euphytica 147:167-86 CrossRef
  49. Urbatzka P (2010) Anbauwürdigkeit von Wintererbsen-Ein Vergleich zu Sommererbsen in Rein- und Gemengesaat unter den Bedingungen des ?kologischen Landbaus. Dissertation University of Kassel-Witzenhausen, Germany, Dr. Kovac, Hamburg
  50. Urbatzka P, Gra? R, Schüler C (2005) Nutzung pflanzengenetischer Ressourcen für den ?kologischen Landbau am Beispiel von Wintererbsen. [Use of plant genetic resources in organic agriculture—the example of winter pea.] 8. Scientific Conference on Organic Agriculture “Ende der Nische- Kassel, Germany, 01.03.2005 - 04.03.2005; He? J, Rahman G (Eds), Kassel University, Kassel, pp 59-0
  51. Urbatzka P, Gra? R, Haase T, Schüler C, He? J (2009) Fate of legume-derived nitrogen in monocultures and mixtures with cereals. Agric Ecosyst Environ 132:116-25 CrossRef
  52. Urbatzka P, Gra? R, Haase T, Schüler C, Trautz D, He? J (2011) The level of N₂-fixation of different genotypes of winter pea in comparison to spring pea in pure and mixed stands. J Cultiv Plants (accepted)
  53. Wang Y, Douglas GB, Waghorn GC, Barry TN, Foote AG (1996) The effect of condensed tannins in / Lotus corniculatus upon lactation performance in ewes. J Agric Sci 126:353-62 CrossRef
  
• 作者单位：Peer Urbatzka (1)
  Rüdiger Gra? (2)
  Thorsten Haase (2)
  Christian Schüler (2)
  Dieter Trautz (3)
  Jürgen He? (2)
  
  1. Bavarian State Research Centre of Agriculture, Institute for Agricultural Ecology, Organic Farming and Soil Protection, Lange Point 12, 85354, Freising, Germany
  2. Department of Organic Farming and Cropping Systems, University of Kassel–Witzenhausen, Germany, Nordbahnhofstr. 1a, 37213, Witzenhausen, Germany
  3. Faculty of Agricultural Science, University of Applied Science, Oldenburger Landstra?e 24, 49090, Osnabrueck, Germany
  

文摘

High grain yields are difficult to achieve for common spring pea (SP), mainly as a result of its relatively low competitiveness and yield instability. In field experiments, seven different genotypes of winter pea (WP) were analysed for their yield performance and yield stability in comparison to one SP in pure and mixed stands (two replacement designs with cereal) at two experimental sites in four and two growing seasons, respectively. Additionally, in a selection of treatments, parameters of grain quality were analysed. Two of the seven genotypes cannot be recommended for cropping in climates where there are frequent incidences of frost in winter, due to their poor winter hardiness. The pea grain yield of the highest-yielding WP grown in mixed stands (overall mean of 2.4?t?DM?ha?) was higher than in a pure stand, with 1.8 and 1.9?t?DM?ha? for WP and SP, respectively. Moreover, the concentration of valuable substances (crude protein, amino acids) in WP was comparable to SP, but the concentration of unfavourable secondary compounds (tannin, trypsin inhibitor activity) was significantly higher. WP showed higher yield stability than SP, and negligible weed infestation was observed for WP, but not for SP. Hence, using WP–cereal mixtures provides an alternative to cropping SP, but awareness of the potential constraint to its use as feedstuff for monogastrics is required.