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Browsing by Author "Qi, Aiming"
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The action of three Beet yellows virus resistance QTLs depends on alleles at a novel genetic locus that controls symptom development
Grimmer, M. K.; Bean, K. M. R.; Qi, Aiming; Stevens, M.; Asher, M. J. C. (2008-08)Beet yellows virus (BYV) can dramatically reduce yield from sugar beet crops. A BYV resistant plant from a Beta germplasm accession was crossed with a sugar beet plant to generate the segregating population BYV1. This ... -
Adaptacion de leguminosas de cobertera al medio ambiente en laderas en Bolivia
Wheeler, T. R.; Keatinge, J. D. H.; Qi, Aiming; Ellis, R. H.; Summerfield, R. J. (Silsoe Research Institute, 1997) -
Agronomy
Jaggard, K. W.; Qi, Aiming (Wiley-Blackwell, 2006) -
Assessing availability and greenhouse gas emissions of lignocellulosic biomass feedstock supply – case study for a catchment in England
Qi, Aiming; Ni, Yuanzhi; N. Mwabonje, Onesmus; M. Richter, Goetz; Yeung, Kenny; Pate, Martin; Woods, Jeremy (2019-05-01)Feedstocks from lignocellulosic biomass (LCB) include crop residues and dedicated per¬ennial biomass crops. The latter are often considered superior in terms of climate change mitigation potential. Uncertainty remains over ... -
Assessing on-farm productivity of Miscanthus crops by combining soil mapping, yield modelling and remote sensing
Richter, Goetz M.; Agostini, Francesco; Barler, Alexandra; Costomiris, Delphine; Qi, Aiming (2016-02-29)Biomass from agricultural land is a key component of any sustainable bioenergy strategy, and 2nd generation, ligno-cellulosic feedstocks are part of the UK government policy to meet the target of reduced CO2 emission. ... -
Assessing quantitative resistance against Leptosphaeria maculans (phoma stem canker) in Brassica napus (oilseed rape) in young plants : Assessing quantitative resistance to Leptosphaeria maculans
Huang, Yongju; Qi, Aiming; King, Graham J.; Fitt, Bruce D.L. (2014-01-15)Quantitative resistance against Leptosphaeria maculans in Brassica napus is difficult to assess in young plants due to the long period of symptomless growth of the pathogen from the appearance of leaf lesions to the ... -
Assessing the cost-effectiveness of inputs
Qi, Aiming; Pettitt, I.; May, M. J. (2010) -
Assessing the impact of future climate changes on the UK sugar beet production
Qi, Aiming; Jaggard, K. W. (Association of Applied Biologists, 2008) -
Beet growth in 2006
Jaggard, K. W.; Qi, Aiming; Clark, C. J. A. (2007) -
Beet yield response to fertilizer Nitrogen supply and its optimal requirements in the sugar beet crop
Qi, Aiming; Jaggard, K. W. (Agra Informa Ltd, 2009-01) -
Benchmarking growers’ performance using a crop growth model
Qi, Aiming; Jaggard, K. W.; Jarvis, P. J.; Prince, J. W. F. (Association of Applied Biologists, 2005) -
Benchmarking sugar beet yields and the growers’ performance
Qi, Aiming; Ober, E. S.; Jaggard, Keith W. (2012) -
Biodiversity of Pathogenic and Toxigenic Seed-Borne Mycoflora of Wheat in Egypt and Their Correlations with Weather Variables
Shabana, Yasser M.; Rashad, Younes M.; Ghoneem, Khalid M.; Arafat, Nehal S.; Aseel, Dalia G.; Qi, Aiming; Richard, Benjamin; Fitt, Bruce D. L. (2021-10-11)Simple Summary: Pathogenic fungi cause yield and quality losses and threaten food security. In this study, 198 samples of wheat grains, representing 20 Egyptian wheat cultivars, were collected from 25 wheat-growing ... -
Bolting and flowering control in sugar beet : relationships and effects of gibberellin, the bolting gene B and vernalization
Mutasa-Gottgens, Euphemia; Qi, Aiming; Zhang, Wenying; Schulze-Buxloh, Gretel; Jennings, Andrea; Hohmann, Uwe; Müller, Andreas E; Hedden, Peter (2010-09)Bolting, the first visible sign of reproductive transition in beets (Beta vulgaris), is controlled by the dominant bolting gene B (B allele), which allows for flowering under long days (LDs, >14 h light) without prior ... -
The Broom's Barn sugar beet growth model and its adaptation to soils with varied available water content
Qi, Aiming; Kenter, C.; Hoffmann, C.; Jaggard, K. W. (2005-09)The important environmental variables that determine sugar beet growth and yield are: temperature, radiation, rainfall, potential evapotranspiration and soil available water capacity (AWC). It is important to understand ... -
The Broom’s Barn sugar beet growth model and its use to describe yield variability
Qi, Aiming; Kenter, C.; Hoffmann, C.; Jaggard, K. W. (IIRB, 2003) -
The Broom’s Barn sugar beet growth model and its uses
Jaggard, K. W.; Qi, Aiming (2007) -
Can 100% Pasture-Based Livestock Farming Produce Enough Ruminant Meat to Meet the Current Consumption Demand in the UK?
Qi, Aiming; Whatford, Louise; Payne-Gifford, Sophie; Cooke, Richard; Van Winden, Steven; Hӓsler, Barbara; Barling, David (2023-09-01)Grassland is grouped into temporary, permanent, and rough grazing types in the United Kingdom (UK), making up more than 60% of the national agricultural land area. It provides avenues for grazed fodder or ensiled forage ... -
Can crop disease control cope with climate change?
Qi, Aiming; Fitt, Bruce D.L. (2014-12-01)Crop yields need to increase by at least 70% over the next 35 years in order to meet the global demands for food due to the increasing population and changing dietary preferences towards meat and dairy products in developing ... -
Capture and use of solar radiation, water, and nitrogen by sugar beet (Beta vulgaris L.)
Jaggard, K. W.; Qi, Aiming; Ober, E. S. (2009-05)Sugar beet is spring-sown for sugar production in most sugar beet-growing countries. It is grown as a vegetative crop and it accumulates yield (sugar) from very early in its growth cycle. As long as the sugar beet plants ...