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The observation of a superdeformed structure in82Y (1995)

Dagnall, P. J. ; Smith, A. G. ; Lisle, J. C. ; [et al.]

Springer

The European physical journal 353 (1995), S. 251-253

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ISSN: 1434-601X

Keywords: 21.10.Re ; 21.60.Cs ; 23.20.Lv ; 27.50.+e

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract The58Ni(30Si,αpn)82Y reaction at a beam energy of 134 MeV was used to populate the odd-odd nucleus82Y and coincidentγ rays depopulating high spin states in the evaporation residues were detected with the EUROGAM Phase 2 array. A superdeformed structure has been observed with an intensity of 1.5±0.5%. The cascade of 9 coincidentγ rays has consecutive energy spacing of ∼160 keV. This corresponds to a dynamic moment of inertia which is almost constant at approx mately 25h 2 MeV−1. The band is interpreted as a signature=0, negative parity SD band with aπ51 V52 intrinsic intruder configuration.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01292329

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Effect of low root temperature on symbiotic nitrogen fixation and competitive nodulation of Onobrychis viciifolia (sainfoin) by strains of arctic and temperate rhizobia (1991)

Prévost, D. ; Bromfield, E. S. P.

Springer

Biology and fertility of soils 12 (1991), S. 161-164

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ISSN: 1432-0789

Keywords: Arctic rhizobia ; Sainfoin (Onobrychis) ; Competition ; Low-temperature adaptation ; Symbiotic effectiveness

Source: Springer Online Journal Archives 1860-2000

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

Notes: Summary Symbiotic effectiveness and competitive nodulation of the temperate forage legume sainfoin (Onobrychis viciifolia cv. Melrose) by two strains of arctic rhizobia (from Astragalus or Oxytropis sp.) and two strains of temperate rhizobia (from sainfoin) were evaluated at temperatures of 9, 12, or 15°C for roots and 20°C (day) and 15°C (night) for shoots. The inocula consisted of effective individual or paired arctic and temperate strains which were identified on the basis of differential growth. At 9°C, the arctic strains were generally more competitive than the temperate strains, whereas at the highest temperature tested, the converse was apparent. Symbiotic effectiveness (shoot dry weight, nitrogenase activity, and number of nodules) was similarly affected by root temperature, except that at 15°C the arctic strains were generally as effective as the temperate strains. The marked interaction between temperature and strain on competitiveness or on effectiveness indicates symbiotic adaptation of the arctic rhizobia to low temperatures. On the basis of these data we suggest that the use of selected, cold-adapted rhizobia in sainfoin inoculants may be beneficial in temperate regions where low soil temperatures occur early in the growing season.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00337195

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Nodulation and nitrogen fixation in extreme environments (1994)

Bordeleau, L. M. ; Prévost, D.

Springer

Plant and soil 161 (1994), S. 115-125

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ISSN: 1573-5036

Keywords: nodulation ; nitrogenase ; adaptation ; extreme environments ; arctic rhizobia

Source: Springer Online Journal Archives 1860-2000

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

Notes: Abstract Biological nitrogen fixation is a phenomenon occurring in all known ecosystems. Symbiotic nitrogen fixation is dependent on the host plant genotype, theRhizobium strain, and the interaction of these symbionts with the pedoclimatic factors and the environmental conditions. Extremes of pH affect nodulation by reducing the colonization of soil and the legume rhizosphere by rhizobia. Highly acidic soils (pH〈4.0) frequently have low levels of phosphorus, calcium, and molybdenum and high concentrations of aluminium and manganese which are often toxic for both partners; nodulation is more affected than host-plant growth and nitrogen fixation. Highly alkaline soils (pH〉8.0) tend to be high in sodium chloride, bicarbonate, and borate, and are often associated with high salinity which reduce nitrogen fixation. Nodulation and N-fixation are observed under a wide range of temperatures with optima between 20–30°C. Elevated temperatures may delay nodule initiation and development, and interfere with nodule structure and functioning in temperate Iegumes, whereas in tropical legumes nitrogen fixation efficiency is mainly affected. Furthermore, temperature changes affect the competitive ability ofRhizobium strains. Low temperatures reduce nodule formation and nitrogen fixation in temperate legumes; however, in the extreme environment of the high arctic, native legumes can nodulate and fix nitrogen at rates comparable to those observed with legumes in temperate climates, indicating that both the plants and their rhizobia have successfully adapted to arctic conditions. In addition to low temperatures, arctic legumes are exposed to a short growing season, a long photoperiod, low precipitation and low soil nitrogen levels. In this review, we present results on a number of structural and physiological characteristics which allow arctic legumes to function in extreme environments.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02183092

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