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Main Roots (main + root)

Distribution by Scientific Domains
Life Sciences50%

Selected Abstracts

The Origins of the ,Nonmarket Economy': Ideas, Pluralism & Power in EC Anti-dumping Law about China

EUROPEAN LAW JOURNAL, Issue 4 2001
Francis Snyder
,Market' and ,market economy' exercise a powerful, even magnetic grip on our collective imagination. But what do we mean by ,market economy'? Does it make sense to speak of a ,nonmarket economy', and if so, what does it mean? How are the ideas of ,market economy' and ,nonmarket economy' related? Focusing on EC anti-dumping law, this article seeks to answer these questions. It argues that the legal concept of ,nonmarket economy' in EC anti-dumping law has been socially constructed, by means of relations among a plurality of institutional and normative sites, as part of a changing configuration of legal ideas in specific historical circumstances, and in contexts of political, economic, social, and symbolic power. This argument is articulated in three parts. First, the concept of ,nonmarket economy' in EC anti-dumping law, though drawing on earlier elements, had its main roots in the early Cold War. Second, starting in the 1960s, the GATT multilateral negotiating rounds began to define more specific international rules of the game, but a variety of more localised processes played essential roles as forces of change. Of special importance were, first, the tension between legislative rules and administrative discretion in the United States, and, second, the Europeanisation of foreign trade law in the course of European integration. Third, the EC law concept of ,nonmarket economy' was born in the late 1970s. The main reasons were changes in the international anti-dumping law repertoire, specific ideas in Europe about comparative economic systems, and the perceived emergence of new economic threats, including exports from China. [source]

Growth and nutrient uptake of tea under different aluminium concentrations

JOURNAL OF THE SCIENCE OF FOOD AND AGRICULTURE, Issue 9 2008
Ka Fai Fung
Abstract BACKGROUND: The uptake of essential nutrients such as P, Fe, K, Ca and Mg is depressed by Al in most plants. This study aimed to investigate the concentrations at which Al could be toxic to C. sinensis. The suppression of nutrient uptake was investigated by comparing growth and nutrient uptake at different Al doses. The quantification of Al in apoplasm, symplasm and cell wall of C. sinensis was also studied. RESULTS: In the absence of Al, the growth of C. sinensis was retarded. Test doses over 1 mM Al were toxic to C. sinensis. At concentrations of 0.25 or 0.5 mM, distinct rhizostimulation was noted, and within a short period (2 weeks), the biomass of these seedlings increased by 44 and 35%, respectively, compared to 0 and 14% in control and 1 mM Al, respectively. In general, at beneficial doses (0.25, 0.5), Al stimulated the uptake of Ca, Mg, K and Mn, whereas the uptake of Fe, Cu and Zn was retarded. Fine roots of the seedlings had the highest levels of Al, compared to leaves, branches and main roots. In the root tips, most of the Al was present in the soluble fractions of the apoplasm and symplasm, and very low levels of Al was bound to the cell walls, which was in good agreement with the observed mobility of Al in C. sinensis. CONCLUSION: The results of the present study support the view that Al plays a nutritive role for C. sinensis. The rhizostimulatory effects of Al on C. sinensis have been explained as a consequence of enhanced nutrient uptake. Copyright © 2008 Society of Chemical Industry [source]

Chemical induction of rapid and reversible plastid filamentation in Arabidopsis thaliana roots

PHYSIOLOGIA PLANTARUM, Issue 2 2010
Ryuuichi D. Itoh
Plastids assume various morphologies depending on their developmental status, but the basis for developmentally regulated plastid morphogenesis is poorly understood. Chemical induction of alterations in plastid morphology would be a useful tool for studying this; however, no such chemicals have been identified. Here, we show that antimycin A, an effective respiratory inhibitor, can change plastid morphology rapidly and reversibly in Arabidopsis thaliana. In the root cortex, hypocotyls, cotyledon epidermis and true leaf epidermis, significant differences in mitochondrial morphology were not observed between antimycin-treated and untreated tissues. In contrast, antimycin caused extreme filamentation of plastids in the mature cortices of main roots. This phenomenon was specifically observed in the mature root cortex. Other mitochondrial respiratory inhibitors (rotenone and carbonyl cyanide m -chlorophenylhydrazone), hydrogen peroxide, S -nitroso- N -acetylpenicillamine [a nitric oxide (NO) donor] and 3-(3,4-dichlorophenyl)-1,1-dimethylurea did not mimic the phenomenon under the present study conditions. Antimycin-induced plastid filamentation was initiated within 5 min after the onset of chemical treatment and appeared to complete within 1 h. Plastid morphology was restored within 7 h after the washout of antimycin, suggesting that the filamentation was reversible. Co-applications of antimycin and cytoskeletal inhibitors (demecolcine or latrunculin B) or protein synthesis inhibitors (cycloheximide or chloramphenicol) still caused plastid filamentation. Antimycin A was also effective for plastid filamentation in the chloroplast division mutants atftsZ1-1 and atminE1. Salicylhydroxamic acid, an alternative oxidase inhibitor, was solely found to suppress the filamentation, implying the possibility that this phenomenon was partly mediated by an antimycin-activated alternative oxidase in the mitochondria. [source]

Verticillium longisporum and V. dahliae: infection and disease in Brassica napus

PLANT PATHOLOGY, Issue 1 2006
L. Zhou
Verticillium wilt of oilseed rape (Brassica napus) is caused primarily by Verticillium longisporum and has become a serious problem in northern Europe. In order to evaluate whether V. longisporum and V. dahliae differ in their interaction with oilseed rape, phenotypical and molecular assessments were made. Oilseed rape plants for fungal assessments were inoculated with V. longisporum and V. dahliae via root-dipping and samples were taken from roots, stems, leaves, flowers, pods and seeds during plant development. The infection by V. longisporum was found to start mainly in lateral roots and root-hairs, followed by colonization of the xylem vessels and extensive spread in stems and leaves, whereas V. dahliae infected the main roots and remained in the region below the cotyledon node of the plants. Re-isolation studies, together with PCR analysis of samples taken from early growth stages through to fully ripe plants, showed that the onset of flowering was a critical phase for V. longisporum to colonize plants. No seeds infected with V. longisporum were found. Mycelial growth from V. dahliae but not V. longisporum was significantly reduced on media containing tissue from a low glucosinolate B. napus genotype compared with growth on media containing tissue from a high glucosinolate cultivar. The results of this study suggest that V. longisporum favours B. napus as host and that the transition from the vegetative to the generative phase is of importance for the spread of the fungus in oilseed rape plants. [source]