(a) Biflagellate (b) Multiflagellate (c) Sometimes biflagellate and sometimes multiflagellate (d) Biflagellate in a few species and multiflagellate in the rest Ans. a (7)
(a) Angiosperms (b) Bryophytes (c) Algae (d) Gymnosperms Ans. b (4)
(a) Are thalloid forms (b) Have no conducting tissue (c) Possess archegonia (d) Contain chloroplast Ans. c (8)
(a) Riccia (b) Funaria (c) Marchantia (d) Sphagnum Ans. d (8)
(a) Pteridophyta (b) Bryophyta (c) Angiosperms (d) Gymnosperms Ans. b (11)
(a) Riccia (b) Marchantia (c) Selaginella (d) Sphagnum Ans. b (8)
(a) Dead cell (b) Vestigial cell (c) Accessory cell (d) Beginning of division of labour Ans. d (7)
(a) Ulothrix (b) Oedogonium (c) Spirogyra (d) Chlamydomonas Ans. c (11)
(a) Running fresh water (b) Stagnant fresh water (c) Running salt water (d) Stagnant salt water Ans. a (6)
(a) Attached unbranched filament (b) Attached branched filament (c) Colonial alga (d) Free floating Ans. a (4)
(a) A chloroplast with many pyrenoids (b) A chloroplast with a few pyrenoids (c) A few chloroplasts with a few pyrenoids (d) Many chloroplasts with a few pyrenoids Ans. b (6)
(a) Zoospore formation (b) Gamete formation (c) Zygote germination (d) Zoospore germination Ans. c (5)
(a) Isogamy (b) Anisogamy (c) Oogamy (d) Conjugation Ans. a (4)
(a) Nonflagellate (b) Uniflagellate (c) Biflagellate (d) Tetraflagellate Ans. d (11)
(a) Prof. K.C. Mehta (b) Prof. D.D. Pant (c) Prof. S.R. Kashyap (d) Prof. P.N. Mehra Ans. c (11)
(a) Funaria (Moss) (b) Marchantia (c) Megaceros (d) Dowsonia Ans. d (20)
(a) Thallophyta (b) Bryophyta (c) Pteridophyta (d) All the above Ans. b (10)
(a) The apical cell (b) The basal cell (c) Every cell of the body (d) Accumulation of food in his body Ans. c (6)
(a) Two similar motile gametes (b) Two similar non-motile gametes but physiological disssimilar (c) One motile and one non-motile gametes (d) Two dissimilar motile gametes Ans. b (5)
(a) 2 zoospores (b) 4 zoospores (c) 2– 4 zoospores (d) None of the above Ans. d (6)
(a) Four plants (b) Three plants (c) Two plants (d) One plant Ans. d (7)
(a) Filamentous alga with flagellated reproductive stages (b) Filamentous alga with nonflagellated reproductive stages (c) Membranous alga producing zoospores (d) Nonmotile colonial alga lacking reproductive stages Ans. a (9)
(a) Degeneration of lateral walls (b) Formation of a pore in lateral wall (c) Gelatinization of lateral wall (d) Gelatinization of all the cell walls Ans. b (11)
(a) Chl. a, Chl b and phycocyanin (b) Chl a, Chl c, phycocyanin and fucoxanthin (c) Chl. a, Chl b, carotenes and xanthophylls (d) Chl a and fucoxanthin Ans. c (11)
(a) Antheridium (b) Meristematic (c) Holdfast (d) Zoogonidium Ans. c (7)
(a) Just before formation of zoospores (b) Before the formation of gametes (c) Before the fusion of gametes (d) During germination of zygospores Ans. b (7)
(a) Only one filament (b) Two filaments (c) Many filaments (d) None of the above Ans. a (8)
(a) The filaments showing scalariform conjugation are homothallic (b) The filaments showing lateral conjugation are homothallic (c) The filaments showing lateral conjugation are heterothallic (d) Asexual reproduction occurs by zoospores Ans. b (8)
(a) Zoospore (b) Akinete (c) Chlamydospore (d) Zygospore Ans. d (5)
(a) One (b) Two (c) Three (d) All four Ans. a (7)
(a) Polycentric chromosomes (b) Complex nucleolus (c) Heterothallism (d) A single pyrenoid in each chloroplast Ans. d (5)
(a) Spirogyra sahnii (b) Spirogyra indica (c) Spirogyra jogensis (d) Spirogyra karnalae Ans. c (8)
(a) Conjugation (b) Binary fission (c) Fragmentation (d) Spores formation Ans. a (6)
(a) Ulothrix (b) Cladophora (c) Spirogyra (d) Anabaena Ans. c (10)
(a) Has not been recorded (b) Takes place by formation of zoospores (c) Takes place by formation of aplanospores (d) Takes place by formation of hypnospores Ans. c (8)
(a) Ring like growth (b) A peg like protuberance (c) A spiral outgrowth (d) A perforation in the plate Ans. b (21)
(a) Selaginella (b) Spirogyra (c) Pinus (d) Brassica Ans. b (9)
(a) Haploid (b) Diploid (c) Aplanospore (d) Zygospore Ans. a (13)