plant breeding systems - univerzita karlova · sexual reproduction in flowering plants sexual...
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Plant Breeding Systems:
evolution and diversity of reproduction modes in flowering plants
Patrik MRÁZ: Special lesson within of 'Introduction to the study of biodiversity' course
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Mating systems in plants and animals: a comparison
Introduction Templeton et al, BiolLett 2012
● absence of active mate-choice (no central nervous system
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Mating systems in plants and animals: a comparison
Introduction Templeton et al, BiolLett 2012
● absence of active mate-choice (no central nervous system)
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Mating systems in plants and animals: a comparison
Introduction http://www8.nos.noaa.gov/estuaries101/About/LearnMore.aspx?ID=356
● asexual reproduction more frequent (totipotency: genet and ramets)
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Mating systems in plants and animals: a comparison
Introduction http://bioweb.uwlax.edu/bio203/f2011/proft_paxt/reproduction.htm
● alternation of gametophytic and sporophytic generation
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Mating systems in plants and animals: a comparison
Introduction
● alternation of gametophytic and sporophytic generation
harmful mutations expressed in the gametophyte are not trasfered to sporophytic generation: more effective selection against the genetic load > selfing quite common
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Mating systems in plants and animals: a comparison
Introduction
● predominance of hermaphrodites (72% in flowering plants)
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Introduction
● hermaphrodity versus unisexuality
● self-pollination versus cross-pollination
● self-fertilization versus cross-fertilization
● sexuality versus asexuality
Mating systems in plants and animals: a comparison
Plants: variable reproductive strategies
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Reproductive strategies options
Introduction
sexual asexual
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Reproductive strategies options
Introduction Plant Breeding Systems
sexual asexual
panmixis(xenogamy)
self-fertilization
vegetative agamospermy
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Reproductive strategies options
Introduction Richards 1997
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Reproductive strategies options
Introduction de Jong & Klinkhamer 2005; Richards, 1997
72% 7% 4%7%
4% 5%
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Sexual theory
Sexual theory Plant Breeding Systems
'paradox of sex': Why so widespraed when it is unsure and costly?
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Sexual theory
Sexual theory Plant Breeding Systems
sexuality generates variability:
● recombination
● segregation
● syngamy
sexuality allows gene migration (spreading of successful mutation)
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Sexual theory
Sexual theory Antonovics & Ellstrand 1984, Evolution
'Tangled Bank' hypothesis (Felsenstein 1974) based on 'frequency dependent selection', reduced intragenotype competition
Sexuality is advantageous in heterogeneous environment
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Sexual theory
Sexual theory van Valen 1973, EvolTheor
'Red Queen' hypothesis (van Valen 1973) based on 'frequency dependent selection', biotic – biotic interactions
Sexuality is advantageous in heterogeneous environment
advantage of sex at the level of individuals, and the constant evolutionary arms race between competing species (co-evolution)
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Sexual theory
Sexual theory
1. cost of sex (cost of meiosis) = production of some portion of unfit progeny
Disadvantages of sexuality (compared to asexuality)
2. unsure reproduction (harsh environment and limited cross-pollination)
3. cost of sex (production of male gametes)
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Sexual reproduction in flowering plants
Sexual reproduction
1. no need of water for successful reproduction (vs ferns)
Evolutionary success of angiosperms (ca 300,000 species)
over ferns (ca 12,000) and gymnosperms (700 species)
2. protection and dispersion of zygote within seeds / fruits
3. wide range of pollination syndroms (vs gymnosperms)
4. wide range of growth forms (ecological succes) (vs gymnosperms)
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Sexual reproduction in flowering plants
Sexual reproduction
Female function: gynoecium (pistils)
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Sexual reproduction in flowering plants
Sexual reproduction
Male function: androecium (stamens)
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Sexual reproduction in flowering plants
Sexual reproduction
Double fecondation (fusion)
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Sexual reproduction in flowering plants
Sexual reproduction Endress, 2011 AmJBot
Evolutionary trends in ovaries and ovules
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Floral diversity and pollination
Sexual reproduction
Floral evolution
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Floral diversity and pollination
Scent attraction and nectar reward
Pollination biology Knudsen 1999, Oikos
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Floral diversity and pollination
Sexual reproduction
Pollination (zoo-, anemo-, hydro-)
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Pollination biology and gene flow
Pollinator behaviour and foraging strategies
Pollination biology Schmitt 1980, Evolution; Kromer, 2008, PlantBiol
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Floral diversity and pollination
Pollination biology Ghazoul 2006, JEcol
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hermaphrodites 95% (Richards 1997)
potential for selfing
40% can do, 20% usually
(ii) Why outcrossing is more frequent than self-fertilization?
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How do plants avoid self-polination?
Mechanisms:
mechanistic
temporal
genetic
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Mechanistic separation of male and female functions
allowing flower structures for cross-pollination:
cleistogamy vs chasmogamy
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Mechanistic separation of male and female functions
enlarging the distance between male and female structures
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Mechanistic separation of male and female functions
enlarging the distance between male and female structures
Dole 1992 AmJBot
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Mechanistic separation of male and female functions -herkogamy (heterostyly)
Silvertown & Charlesworth 2007
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Temporal separation of male and female functions -Dichogamy
A. protandry (male first)
Centaurea stoebe s.l.
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Temporal separation of male and female functions -Dichogamy
A. protandry (male first)
MF
Centaurea stoebe s.l.
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Temporal separation of male and female functions -Dichogamy
B. progyny (female first)
Magnolia grandiflora
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Temporal separation of male and female functions -Dichogamy
Routley et al. 2004 IntJPlaSci
protandry
protogyny
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Temporal separation of male and female functions -Dichogamy
Routley et al. 2004 IntJPlaSci
SI plants
SC plants
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Temporal separation of male and female functions -Dichogamy
Routley et al. 2004 IntJPlaSci
SI plants
SC plants
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A. protandry - reducing the impact of pollen-pistil interference on pollen import and export (usually in SI taxa)
Temporal separation of male and female functions -Dichogamy
B. protogyny - reducing the negative impact of inbreeding (usually in SC taxa)
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Genetic mechanism: multiallelic self-incompatibility
Self-incompatibility (SI) - the inability of fertile hermaphrodite plant to produces viable zygotes after self-pollination.
Genetically based (S-alleles, frequency dependent system)
Two types: Sporophytic SI and Gametophytic SI
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Multiallelic self-incompatibility
Self-incompatibility
Gametophytic self-incompatibility (most of plants)
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Multiallelic self-incompatibility
Sporophytic self-incompatibility (Asteraceae, Brassicaceae)
Self-incompatibility Hiscock & McInnis, 2008, TrendsPlantSciSelf-incompatibility
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Multiallelic self-incompatibility
Break-down of SI system
Self-incompatibilitySelf-incompatibility
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Floral heteromorphyphenomenon when 2 or 3 different floral morphs occur within population
mating compatible between morphs, incompatible within
Self-incompatibilitySelf-incompatibility
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Dioecy
4% of flowering plants
more often in trees & shrubs than in perennial herbs
sometimes associated with 'sexual chromosomes'
Dioecy
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Dioecy
Dioecy Charlesworth 2002, Heredity
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Self-fertilization & inbreeding
Selfing
As ca 95% species are hermaphrodites > potential for selfing
Advantages?
Disadvantages?
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Self-fertilization & inbreeding
Selfing Barrett 1998, TrendsPlantSci, Barrett et al 1996 PhilTrans
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Agamospermy
Agamospermy Koltunow 2012, eLS
asexual seed production:progeny is a genetic copy of maternal plant
21 angiosperm families, Asteraceae, Poaceae & Rosaceae
associated with polyploidy, interspecific hybridization, SI (in sexual relatives), perenniality
21 angiosperm families, Asteraceae, Poaceae & Rosaceae
diplospory(Hieracium, Taracacum)
apospory(Pilosella, Rubus, Potentilla)
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Agamospermy
Agamospermy
Advantages
Disadvantages