P. Linger scite author profile

The effects of different cadmium concentrations [17 mg(Cd) kg -1 (soil) and 72 mg(Cd) kg -1 (soil)] on Cannabis sativa L. growth and photosynthesis were examined. Hemp roots showed a high tolerance to Cd, i.e. more than 800 mg(Cd) kg -1 (d.m.) in roots had no major effect on hemp growth, whereas in leaves and stems concentrations of 50 -100 mg(Cd) kg -1 (d.m.) had a strong effect on plant viability and vitality. For control of heavy metal uptake and xylem loading in hemp roots, the soil pH plays a central role. Photosynthetic performance and regulation of light energy consumption were analysed using chlorophyll fluorescence analysis. Seasonal changes in photosynthetic performance were visible in control plants and plants growing on soil with 17 mg(Cd) kg -1 (soil). Energy distribution in photosystem 2 is regulated in low and high energy phases that allow optimal use of light and protect photosystem 2 from overexcitation, respectively. Photosynthesis and energy dissipation were negatively influenced by 72 mg(Cd) kg -1 (soil). Cd had detrimental effects on chlorophyll synthesis, water splitting apparatus, reaction centre, antenna and energy distribution of PS 2. Under moderate cadmium concentrations, i.e. 17 mg(Cd) kg -1 (soil), hemp could preserve growth as well as the photosynthesis apparatus, and long-term acclimation to chronically Cd stress occurred.

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The Inheritance of Chilling Tolerance in Tomato (Lycopersicon spp.)

Venema

Linger

Heusden³

et al. 2005

Plant Biology

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During the past 25 years, chilling tolerance of the cultivated (chilling-sensitive) tomato Lycopersicon esculentum and its wild, chilling-tolerant relatives L. peruvianum and L. hirsutum (and, less intensively studied, L. chilense) has been the object of several investigations. The final aim of these studies can be seen in the increase in chilling tolerance of the cultivated genotypes. In this review, we will focus on low-temperature effects on photosynthesis and the inheritance of these traits to the offspring of various breeding attempts. While crossing L. peruvianum (male symbol) to L. esculentum (female symbol) so far has brought the most detailed insight with respect to physiological questions, for practical purposes, e.g., the readily cross ability, crossing programmes with L. hirsutum as pollen donor at present seem to be a promising way to achieve higher chilling-tolerant genotypes of the cultivated tomato. This perspective is due to the progress that has been made with respect to the genetic basis of chilling tolerance of Lycopersicon spp. over the past five years.

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Long-Term Chilling of Young Tomato Plants under Low Light. IV. Differential Responses of Chlorophyll Fluorescence Quenching Coefficients in Lycopersicon Species of Different Chilling Sensitivity

Brüggemann

Linger

1994

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Chilling Sensitivity of Photosynthesis: Evidence for Differential Oxidative Stress in Two Lycopersicon Species of Different Chilling Tolerance

Brüggemann¹,

Linger²,

Maas-Kantel³

1995

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P. Linger

Industrial hemp (Cannabis sativa L.) growing on heavy metal contaminated soil: fibre quality and phytoremediation potential

Cannabis sativa L. growing on heavy metal contaminated soil: growth, cadmium uptake and photosynthesis

The Inheritance of Chilling Tolerance in Tomato (Lycopersicon spp.)

Long-Term Chilling of Young Tomato Plants under Low Light. IV. Differential Responses of Chlorophyll Fluorescence Quenching Coefficients in Lycopersicon Species of Different Chilling Sensitivity

Chilling Sensitivity of Photosynthesis: Evidence for Differential Oxidative Stress in Two Lycopersicon Species of Different Chilling Tolerance

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