Reproduction PDF
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Aarni Auerniitty
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This document provides an overview of different types of reproduction, including asexual and sexual reproduction. It also discusses various strategies and life cycles, such as those seen in jellyfish and parasites.
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Reproduction Aarni Auerniitty Asexual reproduction Production of clones all individuals are genetically identical New individual is born from a single cell or a part of the ‘mother’ Common amongst single celled organisms, plants and fungi for example Different ways: Bi...
Reproduction Aarni Auerniitty Asexual reproduction Production of clones all individuals are genetically identical New individual is born from a single cell or a part of the ‘mother’ Common amongst single celled organisms, plants and fungi for example Different ways: Binary fission (jakautuminen) Multiplication (monistuminen) Budding (silmikoituminen/kuroutuminen) Spores (itiöt) Runners (rönsyt), rhizomes (maavarret), root sprouts (juurivesat) Regeneration Parthenogenesis New individual is developed from a single egg cell without fertilisation Most common in colony forming insects and other invertebrates More efficient, no males needed Sexual reproduction Reproduction through merging of gametes new individuals are a mix of the genes of the parents genetic diversity Sperm cells, pollen Egg cells Unisexuals or hermaphrodites Most organisms are unisexual = they produce only sperm or egg cells Hermaphrodites produce both sperm and egg cells and have both sex organs e.g. earthworms Insemination Internal or external fertilization Some animals have courting behaviour Often female choice over competing males https://www.youtube.com/watch?v=rX40mBb8bkU https://www.youtube.com/watch?v=ZPFkmwo8DQU Meiosis Meiosis (right) = nuclear division of gametes Instead of two identical cells like in mitosis (below), four unique cells are born with half of the chromosome count Comparison Asexual Sexual No need to find a mate More genetic variety No courting Faster evolution Efficient --> less resources used Easier to adapt to changes Quick population growth Takes more time and resources More offspring Need to find a mate Easy to spread to new areas Less offspring Little genetic diversity More common to take care of the offspring Struggle in changing environment Reproduction strategies K-strategists Few offspring Cared by parents Most survive to reproduce E.g. top predators R-strategists A lot of offspring Offspring not cared for Most die and only a few survive to reproduce E.g. many fishes Many species between the two extremes Life cycles Jellyfish Alters between sexual and asexual reproduction Parasites Often complex life cycles involving several hosts