easy · LSAT Reading Comprehension

A lichen is visibly one organism but biologically several: a fungus forms most of the body, while photosynthetic algae or cyanobacteria provide usable carbon, and diverse bacteria occupy the resulting structure. Textbooks long described this association as mutualism between a single fungus and a single photosynthetic partner. The formula was useful, but molecular surveys have revealed multiple photobionts within one thallus and bacterial communities that vary across its surface.

This discovery has encouraged claims that a lichen is not an individual at all but an ecosystem. Yet multiplicity alone cannot settle individuality. Mammals also contain microbial communities without thereby ceasing to be individuals. The relevant question is whether the association produces a bounded, coordinated unit whose parts share a sufficiently integrated fate. Lichens reproduce ambiguously on this criterion. Fungal spores disperse alone and must acquire new partners, but fragments and specialized propagules can carry several partners together.

Nor is cooperation constant. A fungus controls access to light and minerals, sometimes consuming most of the carbon its photobiont produces. Under other conditions, the photosynthetic partner can live independently. Calling the relation either harmonious mutualism or disguised parasitism freezes a balance that changes with moisture, nutrients, and partner identity.

The better conclusion is not that individuality is meaningless, but that it can be assembled in degrees. A lichen may be physiologically integrated during growth, reproductively continuous when partners disperse together, and evolutionarily divided when their genetic interests diverge. These dimensions need not coincide. Treating the lichen as a test case rather than an exception reveals why a single yes-or-no definition of organism often conceals the different kinds of unity biologists seek to explain.

Conflict among the dimensions is experimentally useful. If suppressing a bacterial partner disrupts thallus development without affecting joint dispersal, the bacterium contributes physiological integration but not reproductive continuity. If fungal and algal lineages repeatedly reunite despite opportunities to separate, their association may show ecological stability without strict genealogical continuity. Such cases do not merely complicate classification; they permit investigators to ask which mechanisms create each kind of unity and when selection acting at one level stabilizes or undermines another.

Terminology should follow the explanatory problem. A physiologist studying water exchange may reasonably treat the thallus as one functional unit, while a population geneticist tracks fungal and algal lineages separately. These descriptions conflict only if 'individual' is assumed to name one indivisible fact. Once the dimensions are distinguished, shifting units of analysis becomes a testable choice rather than an inconsistency.

Which inference is supported?

  1. Strong physiological integration guarantees that the partners' evolutionary interests are aligned.
  2. A lichen can remain physiologically integrated during growth although some partners disperse separately.
  3. Partners with divergent evolutionary interests cannot form a physiologically integrated unit.
  4. A photosynthetic partner capable of independent life cannot also cooperate within a lichen.
  5. Every lichen propagule carries the full fungal, photobiont, and bacterial community together intact into every subsequent generation.

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