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  1. No Access

    Article

    Silicon enhances the tolerance of Poa annua to cadmium by inhibiting its absorption and oxidative stress

    Silicon (Si) could enhance plant tolerance to heavy metals; however, the mechanism of Si-mediated alleviation of cadmium (Cd) toxicity in Poa annua was not clear. In this study, we found that 100 μM Cd significan...

    P. Li, C. Z. Zhao, Y. Q. Zhand, X. M. Wang, J. F. Wang, F. Wang in Biologia Plantarum (2017)

  2. No Access

    Article

    Nitrogen deprivation induces cross-tolerance of Poa annua callus to salt stress

    Alternative respiration pathway (AP) is an important pathway which can be induced by environment stresses in plants. In the present study, we show a new mechanism involving the AP in nitrogen deprivation-induc...

    C. Z. Zhao, P. Li, X. M. Wang, P. Li, X. Y. Wang, F. Wang, J. F. Wang in Biologia Plantarum (2016)

  3. No Access

    Article

    Attenuated Lapinized Chinese Strain of Classical Swine Fever Virus: Complete Nucleotide Sequence and Character of 3′-Noncoding Region

    The complete nucleotide sequence including precise 5′- and 3′-terminal non-coding regions (NCRs) of the attenuated lapinized Chinese strain (HCLV) of Classical Swine Fever Virus (CSFV) was determined from over...

    H. X. Wu, J. F. Wang, C. Y. Zhang, L. Z. Fu, Z. S. Pan, N. Wang, P. W. Zhang in Virus Genes (2001)

  4. No Access

    Article

    Effect of vanadium on the growth of soybean seedlings

    Pot experiments were conducted in a glasshouse to investigate the effects of vanadium (V) on the growth of soybean seedlings in two soils. As the concentration of V added to the fluvo-aquic soil (Fluvaqents) e...

    J. F. Wang, Z. Liu in Plant and Soil (1999)

  5. No Access

    Chapter

    Chair’s Perspective: Host Resistance

    Good progressress has been made in the analysis of host resistance over the past five years, and many lines of research merit continuation, but space limitation permits only major themes from each session to b...

    N. Grimsley, J.-F. Wang in Bacterial Wilt Disease (1998)

  6. No Access

    Chapter

    Genetic Analysis of Quantitative Resistance Loci (QRL) of Tomato Variety Hawaii 7996 in Taiwan

    The interaction between virulence or avirulence of Ralstonia solanacearum and susceptibility or resistance of different tomato lines does not seem to follow a classical gene-for-gene system (Flor, 1971). Until no...

    J.-F. Wang, P. Thoquet, J. Olivier, N. Grimsley in Bacterial Wilt Disease (1998)

  7. No Access

    Chapter

    Resistance Sources to Bacterial Wilt in Eggplant (Solanum melongena)

    Bacterial wilt (BW), caused by Ralstonia solanacearum, is a major limiting factor for eggplant (Solarium melongena) production in the tropics and subtropics. The pathogen is difficult to control because it is soi...

    J.-F. Wang, N.-C. Chen, H.-M. Li in Bacterial Wilt Disease (1998)

  8. No Access

    Chapter

    Worldwide Evaluation of an International Set of Resistance Sources to Bacterial Wilt in Tomato

    Bacterial wilt (BW) of tomato, caused by Ralstonia solanacearum, is the most important disease affecting tomato production in many tropical and subtropical regions (Opeña et al. 1990). Disease control for BW is d...

    J.-F. Wang, P. Hanson, J. A. Barnes in Bacterial Wilt Disease (1998)

  9. No Access

    Chapter

    Population Structure of Ralstonia solanacearum From a Disease Nursery and Tomato Production Fields in Taiwan

    Planting resistant varieties is potentially the simplest and most effective way to control tomato bacterial wilt caused by Ralstonia solanacearum. However, resistance to bacterial wilt in tomato can be location-s...

    T. Jaunet, J.-F. Wang in Bacterial Wilt Disease (1998)