111. Agronomic potential of vetch landraces from Jordan

• Authors:
  • Saoub, H. M.
  • Akash, M. W.
  • Ayad, J. Y.
• Source: Research on Crops
• Volume: 13
• Issue: 1
• Year: 2012
• Summary: In Jordan, the improvement of vetch production is becoming one of the main objectives as its growing areas are decreasing either because of environmental or cropping system changes. However, there is no literature concerning the assessment of genetic diversity of vetches landraces that harbour important genes for the development of new adapted varieties. The present study aimed at collecting, evaluating and characterizing vetch landraces covering different parts of Jordan. Twenty-six vetch landraces were collected from different parts of Jordan during a period extended from April to May in 2006-07 growing season and assessed in the field during 2008-09 growing season. The experiment was conducted at three stations (Ghwier Agricultural Research Station, Rabba Agricultural Research Station and Jubeiha Agricultural Research Station, The University of Jordan). Results indicated that grain yield of Vicia erivillia landraces was higher than grain yield of Vicia sativa landraces, regardless of the growing location. However, biological yield obtained from V. sativa entries [671 kg/ha (entry no. 6) upto 2514 kg/ha (entry no. 1)] was higher than that obtained from V. erivillia entries [536 kg/ha (entry no. 10) upto 2125 kg/ha (entry no. 23)]. Similar trend was shown for straw yield where V. sativa entries had more vegetative growth compared to V. erivillia entries. These differences attributed to the dissimilarity in genetic make-up of the two species. For example, some researchers mention that V. erivillia produces more grain yield due to its ability to tolerate drought when compared to V. sativa. The identification of these superior adapted local landraces is the first step in fulfilling the objective of the national vetch breeding programme.

112. Innovations in agronomy for food legumes. A review

• Authors:
  • Sakar, D.
  • Hashem, A.
  • Jeuffroy, M. H.
  • Turner, N. C.
  • Johansen, C.
  • Siddique, K. H. M.
  • Gan, Y.
  • Alghamdi, S. S.
• Source: Agronomy for Sustainable Development
• Volume: 32
• Issue: 1
• Year: 2012
• Summary: Although there is increasing awareness of the importance of food legumes in human, animal and soil health, adoption of improved production technologies for food legume crops is not proceeding at the same pace as for cereal crops. Over the previous decade, the only food legumes to have shown significant production increases have been chickpea, lentil and faba bean in North America, chickpea in Australia, and faba bean in Europe. In smallholder farming in developing countries, production trends have mostly been static or have declined over the past decade despite the existence of technology that should permit higher and more stable yields. Ability to reverse negative trends is jeopardized by climate change as food legumes are mostly grown rainfed and are being exposed to increasingly variable and extreme weather. This review examines recent innovations in cultivation technology for the major food legumes-chickpea, lentil, dry pea, faba bean, lupin, common bean, mung bean, black gram, cowpea, and pigeonpea-and explores constraints to their adoption, particularly by resource-poor smallholder farmers. Conservation agriculture, involving minimum soil disturbance, maximum soil cover, and diverse rotations, has contributed to sustainable cropping system production in large-scale commercial farming systems in the Americas, Europe, Australia, and Turkey. Temperate food legumes have been incorporated into such systems. Adoption of conservation agriculture is only just beginning for smallholder farming in Asia and Africa, catalyzed by the development of low-cost implements suitable for minimum tillage. Water use efficiency improves with conservation agriculture as it allows for earlier planting, reduced soil evaporation, better weed management, and increased access to nutrients. Ecosystem-based approaches to plant nutrition are evolving which place more reliance on accessing organic and mineral reservoirs than in replenishing the immediately available pool with chemical fertilizers, leading to enhanced nutrient use efficiency of cropping systems. Ecosystem-based approaches are also being applied to management of weeds, diseases, and insect pests of food legumes, again with decreased reliance on synthetic chemicals. In achieving sustainable agricultural production systems, there is increasing realization of the need to move towards the tenets of organic agriculture, as exemplified in conservation agriculture and ecosystem-based approaches to plant nutrition and pest management. This does not necessarily imply a desire to qualify for organic product certification but more a realization of the need for sustainable agriculture. The movement towards conservation and organic agriculture encourages greater inclusion of food legumes, and legumes generally, in cropping systems. Unfortunately, however, technology transfer to resource-poor farming situations, where most food legumes are produced, remains a major bottleneck to meeting global demand. More participatory approaches to technology development, testing, and dissemination are required than hitherto practiced. It is suggested that this process could be enhanced by better focusing on major constraints within the value addition chain for food legumes.

113. Effects of repeated clover undersowing, green manure ley and weed harrowing on weeds and yields in organic cereals

• Authors:
  • Netland, J.
  • Brandsaeter, L. O.
  • Sjursen, H.
• Source: Acta Agriculturae Scandinavica, Section B - Soil & Plant Science
• Volume: 62
• Issue: 2
• Year: 2012
• Summary: Cover crops can be used to reduce leaching and erosion, introduce variability into crop rotation and fix nitrogen (N) for use by the main crops, less is however known about effects on weeds. The effects on weed seed bank, weed growth and grain yield of 4 years of annual undersown clover and ryegrass alone and in combination, and one of the 4 years with clover or clover + grass as green manure, were studied in oat and spring wheat at two experimental sites in south-eastern Norway. These treatments were compared with no undersown crop (control) and with weed harrowing. In contrast to many results in the literature, the undersown clover in this study did not suppress annual weeds, but fertilized the weeds as well as the cereals. Undersown clover resulted in a statistically significant increase of grain yield at the two sites to 116% and 121% of control. During the 4-year period relative seed bank and density of emerged weed (dominated by Spergula arvensis) increased significantly about 4.5 and 10 times respectively in the undersown clover plots at Apelsvoll. At Kise both ryegrass alone and ryegrass mixed with clover significantly suppressed the weed biomass to 70% and 74% of control respectively. It is concluded that fertilization effects of undersown clover may have dominated and overriden the competitive effects. One whole-season clover green manure did not increase the mean yield, but resulted in a significant drop in seed bank size the following year, because of limited weed establishment in an established ley. Only a slight increase in average weed biomass was observed at one of the two experimental sites. The weed seed bank and the weed biomass were essentially kept at steady state during the experimental period in harrowed plots, but harrowing decreased grain yield significantly at both sites.

114. Allelopathic Effects of Sunnhemp (Crotalaria juncea L.) on Germination of Vegetables and Weeds

• Authors:
  • Vencill, W.
  • Schomberg, H. H.
  • Phatak, S. C.
  • Díaz-Pérez, J. C.
  • Skinner, E. M.
• Source: HortScience
• Volume: 47
• Issue: 1
• Year: 2012
• Summary: Sunnhemp (Crotalaria juncea L.) is a tropical legume that could be an important summer cover crop in the southeastern United States, but it has the potential for suppressing both crops and weeds. Allelopathic effects of sunnhemp on weeds, vegetable crops, and cover crops were evaluated in greenhouse and growth chamber experiments. In the greenhouse, ground dried sunnhemp residues (applied mixed with the soil at 1.6% w/w) reduced percent germination of lettuce (Lactuca sativa L.) and smooth pigweed (Amaranthus hybridus L.) to a similar degree as that caused by cereal rye (Secale cereale L. subsp. cereale) residues (applied at 1.5% w/w). The allelopathic activity of sunnhemp was greater in the leaves than in the roots or stems. In growth chamber studies, the mean reduction in germination (relative to the control) caused by sunnhemp leaf aqueous extracts was: bell pepper (100%), tomato (100%), onion (95%), turnip (69%), okra (49%), cowpea (39%), collard (34%), cereal rye (22%), sweet corn (14%), Austrian winter pea (10%), crimson clover (8%), cucumber (2%), and winter wheat (2%). In lettuce, carrot, smooth pigweed, and annual ryegrass, sunnhemp aqueous leaf extract reduced seedling length to a degree similar as that produced by rye aqueous leaf extract. Sicklepod [Senna obtusifolia (L.) H.S. Irwin & Barneby CA] germination was not inhibited by any of the sunnhemp or rye aqueous extracts. In conclusion, sunnhemp reduced the germination percentage and seedling growth of various crop species. The allelochemical activity in sunnhemp was primarily in the leaves and remained active at least 16 d after harvest under dry conditions. Sunnhemp's allelochemical effect may be a useful attribute for weed management in sustainable production systems. However, plant growth in the field in crops such as bell pepper, tomato, onion, and turnip may be impacted as a result of allelopathic activity of sunnhemp residues. Thus, weed management may be more effective when sunnhemp is grown in rotation with crops that tolerate the allelochemicals from sunnhemp, resulting in optimization of the rotation effects.

115. Pesticide Residue Testing of Grains and Oil Seeds: Minimizing False Positives and False Negatives

• Authors:
  • Jeanville, P.
  • Kellog, C.
  • Schachterle, S.
  • Muntean, F.
  • Bong, S.
  • Rousetty, K.
  • Peebles, B.
  • Trengove, R.
• Source: American Laboratory
• Volume: 44
• Issue: 2
• Year: 2012

116. Response of field pea (Pisum sativum L.) growth to reduced tillage of clayey soil

• Authors:
  • Satkus, A.
  • Velykis, A.
• Source: Žemdirbystė (Agriculture)
• Volume: 99
• Issue: 1
• Year: 2012
• Summary: Research was done at the Joniskelis Experimental Station of the Lithuanian Research Centre for Agriculture and Forestry on a clay loam Endocalcari-Endohypogleyic Cambisol (CMg-n-w-can). The objective of this study was to determine the effects of reduced (shallow ploughing and ploughless tillage) tillage as well as its combinations with supplementary agronomic practices, improving soil conditions - incorporation of lime sludge, cover crop (mixture of white mustard and oilseed radish) for green manure and mulch on the emergence, growth and development of field pea (Pisum sativum L.) crop. Data revealed that shallow ploughing caused the worst field pea emergence in 2008. Ploughless tillage in combination with lime sludge incorporation resulted in a significantly higher soil water content in seedbed layer (0-5 cm) directly after field pea sowing in 2009, better field pea germination within the prolonged droughty post-sowing periods (18 and 20 days respectively in 2008 and 2009) and higher grain yield in 2008 as compared to deep ploughing. Due to the ploughless tillage together with incorporation of the cover crop biomass for the green manure late in autumn, significantly higher soil water content was registered in the seedbed directly after sowing in 2010 and at 5-15 cm depth according to the average data of 2008-2010; however the emergence and growth of field pea under droughty conditions were worse, and yield decreased in 2009 and 2010. Application of ploughless tillage with no supplementary practices resulted in significantly higher soil water content in seedbed directly after field pea sowing in 2010; however, in field pea yield decreased in 2009. Cover crop winter mulch without tillage in autumn led to a significantly higher soil water content in the seedbed directly after sowing in 2010, while the soil water content after field pea emergence at 5-15 cm depth in 2008 and at 15-25 cm depth according to the average data of 2008-2010 was lower, seedbed structure was mostly worse, field pea growth and development were poor and crop yield was lower in all years of study as compared to deep ploughing. Rapid capillary water movement, characteristic of clay loam with predominant silty fractions, could lead to a higher drying of soil layers unloosened in the autumn. Field pea yield was influenced by the amount of rainfall during one month after sowing in a droughty year 2008 and by the soil structure in a seedbed in 2009.

117. Nitrogen fixation by pea and lentil green manures in a semi-arid agroecoregion: effect of planting and termination timing

• Authors:
  • Zabinski, C. A.
  • Burgess, M. H.
  • Miller, P. R.
  • Jones, C. A.
  • McCauley, A. M.
• Source: Nutrient Cycling in Agroecosystems
• Volume: 92
• Issue: 3
• Year: 2012
• Summary: Crop-fallow systems dominate many semi-arid agricultural regions despite fallow's negative effects on soil and water quality. Annual legumes grown as a fallow-replacement crop, and terminated prior to maturity, can reduce these negative effects without substantially decreasing plant available water for the subsequent crop. Interest in growing legume green manures (LGMs) in synthetically-fertilized systems is increasing in the northern Great Plains of North America, partly due to the N-fixing capabilities of legumes; however, little is known about the effects of planting and termination time on N fixation amounts in the region. A 2-year field study was initiated in southwest Montana to determine the effects of planting time (spring or summer) and termination time (e.g. flower or pod) on the amount of N fixed by field pea (Pisum sativum cv. Arvika) and lentil (Lens culinaris cv. Richlea). Two methods, N-15 natural abundance and N difference, were used to quantify N fixation, with wheat or in-crop weeds as reference plants. In 2009, N fixed by spring-planted lentil was higher by pod than flower (P = 0.03). Termination time did not affect the amount of N fixed by spring-planted pea, despite more biomass by pod than flower. In 2010, both spring-planted crops fixed more N by pod than flower (P < 0.01) and more N was fixed by spring-planted than summer-planted crops (P < 0.01). These results should prove useful to growers interested in selecting management practices that optimize N fixation of LGMs.

118. Tillage effects on yield and nitrogen fixation of legumes in Mediterranean conditions.

• Authors:
  • Saia, S.
  • Frenda, A. S.
  • Miceli, G. di
  • Giambalvo, D.
  • Ruisi, P.
  • Amato, G.
• Source: Agronomy Journal
• Volume: 104
• Issue: 5
• Year: 2012
• Summary: The no-tillage (NT) technique represents a valuable alternative to conventional tillage (CT) for many crops, but little research has evaluated the effects of its use on the performance of grain legumes, particularly in Mediterranean regions. The present study assessed the effects of NT compared with CT on the grain yield and N 2 fixation of chickpea ( Cicer arietinum L.), faba bean ( Vicia faba L. variety minor), pea ( Pisum sativum L.), and lentil ( Lens culinaris Medik.). The experiment was performed under rainfed conditions during four growing seasons. Nitrogen fixation was estimated using the 15N isotope dilution technique. The response of the four species to the tillage system varied significantly by year. The grain yield was significantly higher under NT than under CT only for pea and chickpea, but the differences between the two tillage techniques were consistent only when rainfall was very scarce. The percentage of N fixed differed by species in the order faba bean > chickpea > pea > lentil. The effects of tillage on the N 2 fixation process varied significantly by species and year. Nitrogen balance was positive for faba bean and lentil and negative for chickpea and pea, with no differences by tillage. The results indicate that in cereal-dominated Mediterranean agro-ecosystems NT can be a valuable option for producing grain legumes, as it can improve productivity, particularly under conditions of deficient soil moisture.

119. Can integration of legume trees increase yield stability in rainfed maize cropping systems in southern Africa?

• Authors:
  • Akinnifesi, F. K.
  • Debusho, L. K.
  • Sileshi, G. W.
• Source: Agronomy Journal
• Volume: 104
• Issue: 5
• Year: 2012
• Summary: Growing maize ( Zea mays L.) in association with legume trees in agroforestry arrangements has been shown to increase yields in many parts of sub-Saharan Africa; however, the stability of crop yields has not been critically analyzed in the various cropping systems that integrate leguminous trees. The objective of this analysis was to compare yield stability in improved cropping systems, namely maize-gliricidia [ Gliricidia sepium (Jacq.) Kunth] intercropping and fertilized monoculture maize, with the de facto practice of resource-poor farmers who grow maize continuously without any external input. Yield stability was determined for three long-term field trials (12-13 consecutive yr) conducted at Makoka Research Station in southern Malawi and Msekera Research Station in eastern Zambia. At Makoka, the most stable yield was recorded in maize-gliricidia intercrops. Average yield was highest for maize-gliricidia intercropping amended with 50% of the recommended N and P fertilizer, and this was comparable with the yield recorded in monoculture maize that received inorganic fertilizer. On the two sites at Msekera, the highest yield was recorded in fertilized monoculture maize, followed by maize-gliricidia intercrops. Yields were more stable, however, in maize-gliricidia intercropping than fertilized maize on both sites at Msekera. It was concluded that maize yields remain more stable in maize-gliricidia intercropping than in fertilized maize monoculture in the long term, although average yields may be higher with full fertilization.

120. Reduced-tillage organic corn production in a hairy vetch cover crop.

• Authors:
  • Cavigelli, M. A.
  • Spargo, J. T.
  • Mirsky, S. B.
  • Teasdale, J. R.
  • Maul, J. E.
• Source: Agronomy Journal
• Volume: 104
• Issue: 3
• Year: 2012
• Summary: There is interest in developing no-tillage systems for organic farming; however, potential limitations include the inability to control weeds and to provide sufficient crop available N. A 3-yr field experiment was conducted on organically certified land to explore roller-crimper technology for terminating a hairy vetch ( Vicia villosa Roth) cover crop in a reduced-tillage compared to a disk-tillage organic corn ( Zea mays L.) production system in Maryland. Within this tillage comparison, factors including the corn planting date and post-plant cultivation were examined for optimizing reduced-tillage organic corn production. Corn yield in roll-killed hairy vetch treatments where corn was planted by mid-June and that received high-residue cultivation was similar or higher than the best treatments with disk-killed hairy vetch. Delayed corn planting dates had little impact on corn yield in either disk- or roll-killed treatments, a result consistent with the similarity in weed biomass after cultivation, fertility, moisture, and radiation across planting dates. In 2 yr with supplemented weed populations, weed biomass was the major driver determining corn yield, which was reduced by 53 to 68% relative to weed-free control plots in the absence of post-plant cultivation, and by 21 to 28% with post-plant cultivation. In a year with low, natural weed populations, weeds had no significant influence on yield. These results demonstrate that organic corn production in a reduced-tillage roll-killed cover crop system can provide similar yields to those in a traditional tillage-based system, but also highlight the importance of maintaining low weed populations to optimize corn yield.