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Communication01:03

Communication

Communication between two animals occurs when one animal transmits an information signal that causes a change in the animal that receives the information. Organisms communicate with one another in a host of different ways. Signals can be auditory, chemical, visual, tactile, or a combination of these. Communication is a critical behavioral adaptation that promotes survival, growth, and reproduction.
Osmoregulation in Insects01:47

Osmoregulation in Insects

Malpighian tubules are specialized structures found in the digestive systems of many arthropods, including most insects, that handle excretion and osmoregulation. The tubules are typically arranged in pairs and have a convoluted structure that increases their surface area.
Bacterial Signaling01:30

Bacterial Signaling

Bacterial signaling can occur within bacteria (intracellular) or between bacteria (intercellular). At times, a group of bacteria behaves like a community. To achieve this, they engage in quorum sensing, the perception of higher cell density that causes changes in gene expression. Quorum sensing involves both extracellular and intracellular signaling. The signaling cascade starts with a molecule called an autoinducer (AI). Individual bacteria produce AIs that move out of the bacterial cell...
Cell Signaling in Plants01:25

Cell Signaling in Plants

Plant cells communicate to coordinate their cycle of growth, flowering and fruiting, and activities in roots, shoots, and leaves in response to the changing environmental conditions. Plant signaling is distinct from animal signaling. Plants primarily utilize enzyme-linked receptors, whereas the largest class of cell-surface receptors in animals are G-protein coupled receptors (GPCRs). Unlike animals, receptor tyrosine kinases are rare in plants. Instead, plants have a diverse class of...
Autocrine Signaling01:01

Autocrine Signaling

Autocrine signaling is one of the many signaling mechanisms that function inside multicellular organisms to carry out intercellular communication. In this type of signaling mechanism, the same cell that secretes an extracellular signaling molecule also expresses the receptors to bind and respond to that signaling molecule.
Autocrine Signaling in Macrophages
Under normal physiological conditions, autocrine signaling is essential for maintaining homeostasis. This process is well characterized in...
Chemical Signaling in the Endocrine System01:08

Chemical Signaling in the Endocrine System

A signaling cascade is a series of events that facilitates the transmission of information within or between cells, culminating in a targeted response in the recipient cell. As chemical messengers, hormones are pivotal in initiating and modulating these intricate signaling cascades based on their solubility.
Lipid-soluble hormones, such as steroid hormones, demonstrate an intracellular action. These hormones traverse cell membranes due to their lipid nature. Once inside the target cell, they...

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Oxidative cleavage of polysaccharides by a termite-derived <i>superoxide dismutase</i> boosts the degradation of biomass by glycoside hydrolases.

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Microbial Communities of the Gut and Nest of the Humus- and Litter-Feeding Termite Procornitermes araujoi (Syntermitinae).

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Related Experiment Video

Updated: Jun 24, 2026

Vertical T-maze Choice Assay for Arthropod Response to Odorants
06:13

Vertical T-maze Choice Assay for Arthropod Response to Odorants

Published on: February 14, 2013

Chemical communication in isoptera.

Ana M Costa-Leonardo1, Fabiana E Casarin, Juliana T Lima

  • 1Depto. Biologia, Univ. Estadual Paulista, Rio Claro, SP. amcl@rc.unesp.br

Neotropical Entomology
|April 7, 2009
PubMed
Summary

Termite semiochemicals, including trail and alarm pheromones, are understudied due to their elusive nature. Research suggests termites use a "pheromone parsimony" strategy in chemical communication.

Area of Science:

  • Entomology
  • Chemical Ecology
  • Insect Behavior

Background:

  • Semiochemical communication in termites (Isoptera) is less understood than in ants and bees.
  • Cryptic habits and laboratory rearing challenges limit termite semiochemical research.
  • Termite semiochemicals encompass trail, sex, and alarm pheromones, plus nestmate recognition cues.

Purpose of the Study:

  • To highlight the limited research on termite semiochemicals.
  • To discuss challenges in studying these compounds.
  • To present current understanding of termite chemical communication strategies.

Main Methods:

  • Literature review of existing studies on termite semiochemicals.
  • Analysis of known termite pheromone functions and chemical structures.

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Last Updated: Jun 24, 2026

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  • Comparison of termite communication strategies with other social insects.
  • Main Results:

    • Termite semiochemicals include trail, sex, and alarm pheromones.
    • Nestmate recognition involves complex chemical mixtures.
    • Termites exhibit pheromonal parsimony, using single compounds for multiple functions, glands, or species.

    Conclusions:

    • Despite limited study, termite chemical communication is sophisticated.
    • Pheromonal parsimony is a key feature of termite communication.
    • Further research is needed to fully elucidate termite semiochemicals and their roles.