Draw a large labelled diagram to show the structure of Rhizopus during asexual reproduction - Leaving Cert Biology - Question 15(a) - 2019

Rhizopus is primarily a saprophytic organism, meaning it derives its nutrients from decomposing organic matter. It can also be classified as heterotrophic, as it relies on other organisms for its nutritional needs.

An environmental condition that could trigger sexual reproduction in Rhizopus is a lack of water or extreme temperatures. These stressors may prompt the organism to switch from asexual to sexual reproduction to increase genetic diversity and enhance survival under adverse conditions.

The process of sexual reproduction in Rhizopus involves several steps:

1. Mating Types Formation: Rhizopus fungi have different mating types, often referred to as '+' and '-' strains. These strains must come into contact to initiate sexual reproduction.

2. Swelling Formation: When the compatible strains meet, they form swellings on the hyphae where the nuclei of both mating types can migrate.

3. Production of Gametangia: The swollen areas develop into gametangia, which are structures that produce gametes (the reproductive cells).

4. Fusion of Gametes: The gametes from the gametangia fuse, resulting in the formation of a zygote, a fertilized cell that holds genetic material from both parent strains.

5. Zygospore Formation: The zygote then develops into a thick-walled zygospore, which is a resting (dormant) spore that can withstand harsh environmental conditions.

6. Meiosis and Germination: When conditions become favorable, the zygospore undergoes meiosis to produce new spores that can germinate and develop into new hyphae, thus continuing the life cycle.