Academic literature on the topic 'Elemental allelopathy'
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Journal articles on the topic "Elemental allelopathy":
Morris, Christo, Paul R. Grossl, and Christopher A. Call. "Elemental allelopathy: processes, progress, and pitfalls." Plant Ecology 202, no. 1 (August 15, 2008): 1–11. http://dx.doi.org/10.1007/s11258-008-9470-6.
Khan, Abdul Latif, Javid Hussain, Muhammad Hamayun, Syed Abdullah Gilani, Yoon-Ha Kim, Shafiq ur Rehman, Kazuo N. Watanabe, and In-Jung Lee. "Elemental allelopathy and antifungal activities ofInula falconerifrom Himalaya Pakistan." Acta Agriculturae Scandinavica, Section B - Soil & Plant Science 60, no. 6 (November 2010): 552–59. http://dx.doi.org/10.1080/09064710903338786.
Wipf, Heidi M. L., George A. Meindl, and Tia-Lynn Ashman. "A first test of elemental allelopathy via heterospecific pollen receipt." American Journal of Botany 103, no. 3 (August 20, 2015): 514–21. http://dx.doi.org/10.3732/ajb.1500187.
Jaffe, Benjamin D., Michael E. Ketterer, and Stephen M. Shuster. "Elemental allelopathy by an arsenic hyperaccumulating fern, Pteris vittata L." Journal of Plant Ecology 11, no. 4 (March 22, 2017): 553–59. http://dx.doi.org/10.1093/jpe/rtx020.
Morris, Christo, Christopher A. Call, Thomas A. Monaco, Paul R. Grossl, and Steve A. Dewey. "Evaluation of elemental allelopathy in Acroptilon repens (L.) DC. (Russian Knapweed)." Plant and Soil 289, no. 1-2 (October 26, 2006): 279–88. http://dx.doi.org/10.1007/s11104-006-9136-x.
El Mehdawi, Ali F., Colin F. Quinn, and Elizabeth A. H. Pilon-Smits. "Effects of selenium hyperaccumulation on plant-plant interactions: evidence for elemental allelopathy?" New Phytologist 191, no. 1 (March 4, 2011): 120–31. http://dx.doi.org/10.1111/j.1469-8137.2011.03670.x.
Golubkina, Nadezhda, Lidia Logvinenko, Andrew Koshevarov, Olga Ushakova, Olga Kosheleva, Oksana Shevchuk, and Gianluca Caruso. "Effects of intercropping on growth, elemental composition and antioxidant activity of Artemisia scoparia and Raphanus sativus under lead supply." Italus Hortus 28, no. 1 (May 13, 2021): 44. http://dx.doi.org/10.26353/j.itahort/2021.1.4458.
Pilon-Smits, Elizabeth A. H. "On the Ecology of Selenium Accumulation in Plants." Plants 8, no. 7 (June 30, 2019): 197. http://dx.doi.org/10.3390/plants8070197.
Dardouri, Nour Elhouda, Soukaina Hrichi, Pol Torres, Raja Chaâbane-Banaoues, Alessandro Sorrenti, Thierry Roisnel, Ilona Turowska-Tyrk, et al. "Synthesis, Characterization, X-ray Molecular Structure, Antioxidant, Antifungal, and Allelopathic Activity of a New Isonicotinate-Derived meso-Tetraarylporphyrin." Molecules 29, no. 13 (July 3, 2024): 3163. http://dx.doi.org/10.3390/molecules29133163.
Dissertations / Theses on the topic "Elemental allelopathy":
Rande, Hugo. "Effets du niveau de pollution métallique et des stratégies fonctionnelles sur les types d’effets en jeu dans les interactions entre plantes au niveau d’anciens sites miniers des Pyrénées." Electronic Thesis or Diss., Bordeaux, 2024. http://www.theses.fr/2024BORD0032.
Plant-plant interactions have been overlooked in metal/metalloids-impacted environments and are likely driven by several factors whose influence is barely known. First, plant-plant interactions depend on the level of metal pollution, but also on the functional plant strategies of the interacting plants. Furthermore, plants can have several type of effects on their immediate environment, acting at different timescales. Plants canopy and roots have an instantaneous influence on the microclimate and available resources in their immediate vicinity. Then, during a growing season, the production of litter and its decomposition beneath their canopy can influence soil chemical and physical properties. In the longer term, when this cycle of litter production/decomposition is repeated over the years, the dynamics of the organic matter will influence soil conditions even more. In this thesis, our main objective was to delineate these effects, and to understand how plant functional strategies can influence these various effects along metal pollution gradients. We studied these effects during three consecutive years (from 2020 to 2022) in a former mining valley in the French Pyrenees (Sentein, Ariège, France). In this area, we studied interactions between plants using observational and target transplantation methods controlling for the presence of plant canopy and/or plant litter, in three study sites: a slag heap with homogeneous pollution and two mine tailings areas with heterogeneous pollution creating a gradient of pollution. Along these gradients, short-term canopy and root-uptake effects followed the Stress Gradient Hypothesis, switching from competition to facilitation as pollution increased. This facilitation was stronger when the species producing the effect were acquisitive (in relation with soil resources and the Leaf Economic Spectrum), and benefits more the low metal-tolerant plants. These positive effects were mainly due to the improvement of micro-climatic conditions during hot and dry episodes in summer. Concerning the effects linked to litter production and decomposition, negative effects on target plants were found, suggesting the so-called “elemental allelopathic” effects, in relation with the high concentration of metallic elements in the decomposing litter. These negative litter effects were more important in the least polluted environments, where metal-accumulating metallophyte plants (which have high concentration of metals in their leaves) and less metal-tolerant plants interacts. They were particularly marked for targets sensitive to metal pollution. The results of this thesis give important perspectives regarding the use of facilitation for the phyto-management of metals/metalloids-polluted environments, given that the functional strategies of interacting plants and the level of pollution involved are explicitly considered. Additionnaly, the results obtained during the 2022 heatwave provide useful insights regarding the expected evolution of the different effects driving plant interactions in metalliferous ecosystems in a climate change context