Your search keyword '"ALLELOPATHIC agents"' showing total 4 results

1. Limited seed dispersal, allelopathy and unfavorable microclimatic conditions prevent the recovery of oak forests within Eucalyptus plantations.

Author

Badano, Ernesto I. and Siller-Clavel, Pablo

Subjects

*EUCALYPTUS, *SEED dispersal, *ALLELOPATHIC agents, *ALLELOPATHY, *NATIVE species, *EUCALYPTUS camaldulensis

Abstract

Plantations of exotic trees were proposed as an alternative to restore native forests in degraded lands, because they can attract seed dispersers and modulate the microclimate beneath their canopies. However, the large-scale introduction of exotic tree plantations can negatively affect native species by high competitiveness for soil resources and light, while they can also release allelopathic compounds that inhibit the germination and growth of other plants. In this study, we tested the suitability of Eucalyptus camaldulensis plantations to assist the restoration of degraded lands in central Mexico, which were originally covered with oak forests. For this, we sampled soil seed banks within forest remnants and plantations, which showed that the animal-mediated dispersal of oak propagules from forests inwards plantations is reduced. Additionally, we conducted germination trials that evidenced that the leaves of Eucalyptus trees contain allelopathic compounds that inhibit the germination of oaks seeds, also showing that these compounds accumulate in the soil of plantations. We finally conducted field experiments in which soil form forests and plantations were translocated between these two habitats, and acorns were sowed on both soil types. These field experiments revealed that, besides the accumulation of allelopathic compounds in soils of plantations, oak recruitment in these habitats is also impaired by unfavorable microclimatic conditions. Therefore, we conclude that Eucalyptus plantations are not promoting the recovery of native oak forests in central Mexico and, instead, alternative ecological restoration methods should be applied for reaching this aim. [ABSTRACT FROM AUTHOR]

Published

2024

2. Volatile chemicals from leaf litter are associated with invasiveness of a Neotropical weed in Asia.

Author

Inderjit, Evans, Heather, Crocoll, Christoph, Bajpai, Devika, Kaur, Rajwant, Yu-Lono Feng, Silva, Carlos, Treviño Carreon, Jacinto, Valiente-Banuet, Alfonso, Gershenzon, Jonathan, and Callaway, Ragan M.

Subjects

*WEEDS, *VOLATILE organic compounds, *INVASIVE plants, *PLANT canopies, *ALLELOPATHIC agents, *ANTI-infective agents

Abstract

Some invasive plant species appear to strongly suppress neighbors in their nonnative ranges but much less so in their native range. We found that in the field in its native range in Mexico, the presence of Ageratina adenophora, an aggressive Neotropical invader, was correlated with higher plant species richness than found in surrounding plant communities where this species was absent, suggesting facilitation. However, in two nonnative ranges, China and India, A. adenophora canopies were correlated with much lower species richness than the surrounding communities, suggesting inhibition. Volatile organic compound (VOC) signals may contribute to this striking biogeographical difference and the invasive success of A. adenophora. In controlled experiments volatiles from A. adenophora litter caused higher mortality of species native to India and China, but not of species native to Mexico. The effects of A. adenophora VOCs on seedling germination and growth did not differ between species from the native range and species from the nonnative ranges of the invader. Litter from A. adenophora plants from nonnative populations also produced VOCs that differed quantitatively in the concentrations of some chemicals than litter from native populations, but there were no chemicals unique to one region. Biogeographic differences in the concentrations of some volatile compounds between ranges suggest that A. adenophora may be experiencing selection on biochemical composition in its nonnative ranges. [ABSTRACT FROM AUTHOR]

Published

2011

3. Macroalgal Defense against Competitors and Herbivores.

Author

Budzałek, Gracjana, Śliwińska-Wilczewska, Sylwia, Wiśniewska, Kinga, Wochna, Agnieszka, Bubak, Iwona, Latała, Adam, and Wiktor, Józef Maria

Subjects

*ALLELOPATHIC agents, *BROWN algae, *MARINE algae, *AQUATIC animals, *HERBIVORES, *TECHNICAL reports, *CNIDARIA

Abstract

Macroalgae are the source of many harmful allelopathic compounds, which are synthesized as a defense strategy against competitors and herbivores. Therefore, it can be predicted that certain species reduce aquaculture performance. Herein, the allelopathic ability of 123 different taxa of green, red, and brown algae have been summarized based on literature reports. Research on macroalgae and their allelopathic effects on other animal organisms was conducted primarily in Australia, Mexico, and the United States. Nevertheless, there are also several scientific reports in this field from South America and Asia; the study areas in the latter continents coincide with areas where aquaculture is highly developed and widely practiced. Therefore, the allelopathic activity of macroalgae on coexisting animals is an issue that is worth careful investigation. In this work, we characterize the distribution of allelopathic macroalgae and compare them with aquaculture locations, describe the methods for the study of macroalgal allelopathy, present the taxonomic position of allelopathic macroalgae and their impact on coexisting aquatic competitors (Cnidaria) and herbivores (Annelida, Echinodermata, Arthropoda, Mollusca, and Chordata), and compile information on allelopathic compounds produced by different macroalgae species. This work gathers the current knowledge on the phenomenon of macroalgal allelopathy and their allelochemicals affecting aquatic animal (competitors and predators) worldwide and it provides future research directions for this topic. [ABSTRACT FROM AUTHOR]

Published

2021

4. Involvement of Allelopathy in the Invasive Potential of Tithonia diversifolia.

Author

Kato-Noguchi, Hisashi

Subjects

TITHONIA diversifolia, ALLELOPATHY, ALLELOPATHIC agents, NATIVE plants, NOXIOUS weeds, RHIZOSPHERE, ASTERACEAE

Abstract

Tithonia diversifolia (Hemsl.) A. Gray (Asteraceae) is native to Mexico and Central America. The species is spreading quickly and has naturalized in more than 70 countries. It has often been recorded as a harmful invasive plant that disturbs native plant communities. Phytotoxic chemical interactions such as allelopathy between invasive plants and native plants have been reported to play an important role in the invasion. Evidence for allelopathy of T. diversifolia has accumulated in the literature over 30 years. Thus, the objective of this review was to discuss the possible involvement of allelopathy in the invasive potential of T. diversifolia. The extracts, root exudates, and plant residues of T. diversifolia inhibited the germination and growth of other plant species. The soil water and soil collected from T. diversifolia fields also showed inhibitory growth effects. The decomposition rate of T. diversifolia residues in soil was reported to be high. Phytotoxic substances such as sesquiterpene lactones were isolated and identified in the extracts of T. diversifolia. Some phytotoxic substances in T. diversifolia may be released into the soil through the decomposition of the plant residues and the exudation from living tissues of T. diversifolia, including its root exudates, which act as allelopathic substances. Those allelopathic substances can inhibit the germination and growth of neighboring plants and may enhance the competitive ability of the plants, make them invasive. [ABSTRACT FROM AUTHOR]

Published

2020