290 likes | 517 Views
Sumberdaya genetik dalam ekosistem. I. PERUBAHAN GENETIK DI ALAM DAN PRODUKSI DIVERSITAS GENETIK. Adaptation. Genetic change. Genetic Diversity. Change of environmental conditions. organism. Natural selection. Variation. 1. Adaptation. Adaptation is :
E N D
I. PERUBAHAN GENETIK DI ALAM DAN PRODUKSI DIVERSITAS GENETIK Adaptation Genetic change Genetic Diversity Change of environmental conditions organism Natural selection Variation
1. Adaptation Adaptation is : any aspect of an organism or its parts that is of value in allowing the organism to withstand conditions of the environment
Why the organisms have to adapt? • Enable an organism to better use resources • Provide protection from environmental stresses and pressures • Modify local environments to the benefit of the organism • Facilitate reproduction
TO SURVIVE ADAPTATION?
2. Natural selection • Review: overpopulation, unequal survival, unequal reproduction, microevolution • Only factor that generally adapts a population to its environment • The other three factors may effect populations in positive, negative, or neutral ways
Examples: • Herbivores higher for white flowered plants than red flowered – red-flowered alleles (R) increase • Pollinators attracted by white flowers rather than red flowers – white flower alleles (r) increase. • Natural selection accumulates and maintains favorable genotypes
Types of natural selection 1. Directional 2. Stabilizing 3. Diversifying 4. Sexual
Type of natural selection 1. Directional • Phenotype moves toward one end of the range • Ex. Beak size in Galapago ground finch • During dry years big beaks advantageous and increase in frequency. Fig. 23.13
2. Stabilizing selection Fig. 23.12 Frequency of individuals showing a range of phenotypes
3. Diversifying • Selects for two ends of a range • Can result in balanced polymorphism • Ex. Beak type in black-bellied seedcrackers • Two types of seeds – hard and soft • Intermediate billed birds inefficient at feeding on either type Fig. 23.14
3. Variation Genotype level The natural variability Phenotype level
Cause of Variation • Mutation is a permanent change in the DNA sequence that makes up a gene. Mutations range in size from a single DNA building block (DNA base) to a large segment of a chromosome
electromagnetic radiation ( x-rays and gamma rays)cause breaks in phosphodiester bonds and result chromosome mutations like inversions, translocation, duplications and deficiencies
Mutation in a microRNA converts petals to stamens. The mutants of petunia and snapdragon show marked similarity. The studies revealed that, due to a common gene defect, the 'plan' underlying the control of floral organ identity is impaired - resulting in 'the wrong organ at the wrong place'.Image: MPI for Plant Breeding Research
Sexual reproduction Fig 2. The Hardy-Weinberg equilibrium of allele frequencies in non-evolving populations This equilibrium will hold true no matter what the frequencies of the alleles in the parent population. Try it with p = .24 and q = .76, for example, in a population of 1000 peas.
Types of variationa. Phenotypic Variation • Combination of heritable and non-heritable traits • Phenotype is the cumulative product of: • Inherited genotype • Environmental influences • Only the genetic component can be selected Fig. 23.7 Same genes, different seasons
b. Genotypic variation • Expressed in these ways: • Quantitative (continuous – multilocus?) • ex. plant height • Discrete (single locus?) • ex. flower color • Measured by: • Gene diversity - % heterozygosity • Human – 14% • DNA base diversity • Human – 0.1 %
c. Geographic variation • Between or within populations • Natural selection working in response to differences in environment • Genetic drift • Cline = graded • geographic change Fig. 23.8 Geographical distribution of variation in Yarrow plants
II. SELEKSI DAN DOMESTIKASI Ddi Directed selection • Human: • construct and manipulate the environment • Determine and select for traits • Cultivate & propagate Agricultural species (live, grow &reproduce) DOMESTICATION
Methods of Directed Selection • Mass Selection • Pure Line Selection • Production of Synthetic varieties • Hybridization • Induced Polyploidy • Biotechnology