Germ Cells Haploid cells Have the ability to unite with a haploid cell of the opposite sex Examples? Unites to form a diploid cell
Embryonic Development Development: series of orderly, precise steps that transform a zygote into a multicellular embryo ~early stage of development of multicellular organism Includes: 1. cell division 2. cell growth 3. cell differentiation ~changing of unspecialized embryonic cells into specialized cells, tissues,& organs
Early Embryonic Development Cleavage is the first major phase of embryonic development It is the rapid succession of cell divisions (Mitotic) It creates a multicellular embryo from the zygote NO growth Stages: 1. Morula~solid ball of cells 2.Blastula~ single layer of cells surrounding a fluid-filled cavity called the blastocoel ZYGOTE 2 cells 4 cells 8 cells Blastocoel Many cells (solid ball) Cross section of blastula BLASTULA (hollow ball)
Embryonic Development Gastrulation is the second major phase of embryonic development The cells at one end of the blastula move inward, It adds more cells to the embryo It sorts all cells into three distinct cell layers The embryo is transformed from the blastula into the gastrula
Embryonic Development The three layers produced in gastrulation Ectoderm, the outer layer Endoderm, an embryonic digestive tract Mesoderm, which partly fills the space between the ectoderm and endoderm
Embryonic Development The tissues and organs of a tadpole emerge from cells of the ectoderm, mesoderm, and endoderm
Embryonic Development ectoderm cells~ eventually they develop into the skin and nervous tissue of the animal endoderm cells ~develop into the lining of the animal’s digestive tract and into organs associated with digestion. mesoderm cells ~develop into the muscles, circulatory system, excretory system, and, in some animals, the respiratory system.
Embryonic Development Organs start to form after gastrulation Embryonic tissue layers begin to differentiate into specific tissues and organ systems
Tissues and organs take shape in a developing embryo as a result of Changes in cell shape, cell migration, and programmed cell death give form to the developing animal Tissues and organs take shape in a developing embryo as a result of cell shape changes cell migration Ectoderm
Development programmed cell death (apoptosis) Cell suicide Dead cell engulfed and digested by adjacent cell programmed cell death (apoptosis)
Pregnancy
HUMAN DEVELOPMENT The embryo and placenta take shape during the first month of pregnancy Gestation is pregnancy It begins at conception and continues until birth Human gestation is 266 days (38 weeks or 9 months) Mouse gestation is 1 month Elephant gestation is 22 months
HUMAN DEVELOPMENT Human development begins with fertilization in the oviduct Cleavage starts Fertilization of ovum Ovary Oviduct Blastocyst (implanted Ovulation Endometrium Uterus
HUMAN DEVELOPMENT The embryo floats in the fluid-filled amniotic cavity, The placenta’s chorionic villi absorb food and oxygen from the mother’s blood Mother’s blood vessels Placenta Yolk sac Amniotic cavity Amnion Embryo Chorion Chorionic villi
Placenta Food & gases diffuse across blood vessels
HUMAN DEVELOPMENT Embryonic development of essential organs occur in early pregnancy The embryo may encounter risks from faults in its genes & from mother’s exposure to environmental factors The placenta allows for a variety of substances to pass from mother to fetus Protective antibodies German measles virus HIV Drugs (prescription and nonprescription) Alcohol Chemicals in tobacco smoke
Human development from conception to birth is divided into three trimesters First trimester First three months The most rapid changes occur during the first trimester 7 weeks 10 weeks 4 weeks
Human development from conception to birth is divided into three trimesters Second trimester Increase in size of fetus General refinement of human features 12 weeks