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Effect on yield and dry-matter distribution of the stay-green characteristic in cultivars of forage maize grown in England (2003)

Wilkinson, J. M. ; Hill, J.

Oxford, UK : Blackwell Science Ltd

Grass and forage science 58 (2003), S. 0

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ISSN: 1365-2494

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: To test whether or not the ‘stay-green’ (SG) characteristic confers benefits in terms of crop yield or distribution of dry matter (DM) in selected forage maize cultivars, an experiment was conducted in 1998 and 1999 at two sites in England: Writtle College, Essex and the University of Leeds, West Yorkshire. Five SG and five conventional (C) cultivars of forage maize were grown in replicated field-scale plots at each site in both years. One-metre lengths of single rows in each plot were harvested by hand, leaving a 20-cm stubble, on four occasions each year over 3-week periods (harvest 1 to harvest 4), prior to the harvest of the remainder of the fields. Plants were chopped, mixed and a subsample taken for determination of DM content by oven-drying. Mean yields of whole plant DM were similar between SG and C cultivars. Both yield of DM and proportion of ear in the total plant DM increased from harvest 1 to harvest 4 (P 〈 0·01). The increase in DM yield between harvest 1 and harvest 4 was greater for C than for SG cultivars (P 〈 0·05). Within sites there were no differences in the concentration of whole plant DM between SG and C cultivars, which increased from harvest 1 to harvest 4 (P 〈 0·001). The proportion of ear DM in the whole plant DM tended to be higher for C than for SG cultivars in both years and increased (P 〈 0·001) from harvest 1 to harvest 4. The concentration of DM in the ear fraction was higher (P 〈 0·05) for C than for SG cultivars. We conclude that differences between SG and C cultivars of forage maize are likely to be relatively small when grown in the English climate and harvested after the same growing period.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1365-2494.2003.00377.x

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Recycling of sewage sludge to grassland: a review of the legislation to control of the localization and accumulation of potential toxic metals in grazing systems (2003)

Hillman, J. P. ; Hill, J. ; Morgan, J. E. ; [et al.]

Oxford, UK : Blackwell Science Ltd

Grass and forage science 58 (2003), S. 0

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ISSN: 1365-2494

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: The recycling of sewage sludge or biosolids to grassland is strategically important in the European Union (EU) and its use is tightly regulated to control the risk of pathogen transfer to animals and the food chain. Sewage sludges not only contain valuable concentrations of beneficial nutrients, but also elevated concentrations of potentially toxic metals (PTM) compared with average background concentrations in the soil. The EC and UK regulations refer to six PTM, Cd, Pb, Cu, Zn, Ni and Hg, with provisional regulations for Cr, that have to be controlled to prevent detrimental effects on soil and animal health. Despite these regulations, there is still a danger that grazing animals may ingest elevated concentrations of PTM. Biosolids may adhere to herbage after the surface application of sewage sludge to grassland. The repeated surface application of sewage sludge to grassland can lead to elevated concentrations of PTM at the soil surface that may be ingested, together with soil and herbage, by grazing ruminants. This may lead to accumulation of Cd or Pb in liver or kidney. The risk to the human food chain is considered to be low, but the impact on the environment is still unknown. There is little information, for example, on the amount of soil and PTMs that may become incorporated into conserved grass. At present EU and UK legislation and voluntary codes of practice have been developed to protect animal from pathogens in sewage sludge and to minimize any potential risks from accumulation of PTM. The background and implementation of the legislation are examined in this review, and the source and mechanisms of accumulation of PTM by the grazing animal are evaluated.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1365-2494.2003.00365.x

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Research opportunities for studying land degradation with spectroscopic techniques (2003)

Chabrillat, S. ; Kaufmann, H. ; Hill, J. ; [et al.]

In: Remote sensing for environmental monitoring, GIS applications, and geology II : 23 - 26 September 2002, Agia Pelagia, Crete, Greece ; [71 papers presented at the SPIE Conference on Remote Sensing for Environmental Monitoring, GIS Applications, and Geology | SPIE proceedings series ; 4886

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Publication Date: 2020-02-12

Description: Desertification is a land degradation problem of major importance in the arid regions of the world. Deterioration in soil and plant cover have adversely affected nearly 70 percent of the drylands as mainly the result of human mismanagement of cultivated and range lands. Overgrazing, woodcutting, cultivation practices inducing accelerated water and wind erosion, improper water management leading to salinisation, are all causes of land degradation. In addition to vegetation deterioration, erosion, and salinisation, desertification effects can be seen in loss of soil fertility, soil compaction, and soil crusting. Combating desertification involves having an accurate knowledge on a current land degradation status and the magnitude of the potential hazard. We present here a new project that aims at deriving a global simplified Land Degradation Index (LDI) from hyperspectral remote sensing data. Indeed, specific soil properties directly linked to soil degradation status, such as chemical properties, organic matter content, mineralogical content, soil crusting, and runoff, as well as vegetation content and degradation status, could be derived from high spectral resolution imagery. Then, global maps assessing drylands desertification status could be routinely developed. This paper, after a brief review of land degradation processes and assessment, discusses the capabilities of hyperspectral imagery for land degradation assessment.

Keywords: 550 - Earth sciences

Type: info:eu-repo/semantics/bookPart

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