Term
|
Given by
|
1.
Abscisin II
|
Okhuma
|
2.
Alga
|
Linnaeus
|
3.
Allelomorph
|
Bateson
|
4.
Anaphase
|
Strasburger
|
5.
Annelida
|
Lamarck (1809)
|
6.
Antibiotic
|
Selman
Waksman (1942)
|
7.
Apomixis
|
Winkler
|
8.
Arthropoda
|
Von Siebold
|
9.
Astral rays
|
Fol
|
10.
Auxin
|
Went
F.W
|
11.
Bacteriophage
|
Twort
de Herelle
|
12.
Biloproteins
|
O’heocha
|
13.
Biology
|
Lamarck & Traviranus
|
14.
Bioplast
|
Altman
|
15.
Botany
|
Lamarck
|
16.
Bryophyta
|
Braun
|
17.
Carotene
|
Mackenroder
|
18.
Cell
|
Robert
Hooke
|
19.
Centriole
|
Van
Beneden
|
20.
Centrosome
|
Boveri
T
|
21.
Chiasma
|
Morgan
|
22.
Chlorophyll
|
Pelletier
and Caventou
|
23.
Chloroplast
|
Schimper
|
24.
Chordata
|
Lamarck
|
25.
Chromatin
|
Fleming
W
|
26.
Chromosome
|
W. Waldeyer
(1888)
|
27.
Class
|
Linnaeus
|
28.
Cnidaria
|
Hatscheck
|
29.
Coelenterata
|
Leukart
|
30.
Crossing over
|
Morgan
|
31.
Cytokinin
|
Letham
|
32.
Cytoplasm
|
Kolliker
|
33.
Dephlogisticated air (=O2)
|
Priestly
J.
|
34.
Dinosaur
|
Richard Owen (1804-1892)
|
35.
DNA
bar-coding
|
Paul
Hebert (2003)
|
36.
Dormin
|
Robinson
and Wareing
|
37.
DPD (Diffusion Pressure Deficit)
|
Meyer
|
38.
Echinodermata
|
Jacob
Klein
|
39.
Ecology
|
Haeckel
|
40.
Ecosystem
|
Transley
|
41.
Endoplasmic reticulum
|
Porter
|
42.
Endosome
|
Dutrochet
|
43.
Entamoeba
|
Lambl
|
44.
Enzyme
|
Wilhelm Kuhne (1837-1900) in
1878
|
45.
Ergastoplasm
|
Garnier
|
46.
Eugenics
|
Galton
(1883)
|
47.
Evolution
|
Spencer
|
48.
F1 & F2 generation
|
Bateson
|
49.
Family
|
John
Ray
|
50.
Floating respiration
|
Blackman
|
51.
Florigen
|
Cajlachjan
|
52.
Fossil
|
Lamarck
|
53.
Fungi
|
Bauhin
|
54.
Gene
|
Johansen
|
55.
Genera
|
John
Ray
|
56.
Genetics
|
Bateson (1910)
|
57.
Genotype
|
Johansen (1909)
|
58.
Gibberellin
|
Yabuta
and Sumiki
|
59.
Gymnosperm
|
Theophrastus
|
60.
Heterozygous
|
Bateson
|
61.
Histology
|
Meyer
|
62.
Homology
|
Richard Owen (1804-1892)
|
63.
Homozygous
|
Bateson
|
64.
Hormone
|
Starling
|
65.
Immunoglobins
|
Hermens
|
66.
Kinetin
|
Miller
|
67.
Lysoenzyme
|
Alexander
Fleming
|
68.
Lysosome
|
Christian
de Duve
|
69.
Meiosis
|
Farmer
and Moore
|
70.
Metabolism
|
Schwann
|
71.
Metaphase
|
Strasburger
|
72.
Metaxenia
|
Swingle
|
73.
Microbiology
|
Robert
Koch
|
74.
Mitochondria
|
Benda
|
75.
Mitosis
|
Flemming
|
76.
Molecular
biology
|
W.T
Astbury (1950)
|
77.
Mollusca
|
Johnston
|
78.
Monera
|
Haeckel (1866)
|
79.
Mutation
|
Hugo de Vries (1901)
|
80.
Mycorrhiza
|
A. B.
Frank
|
81.
Myxomycetes
|
Macbride
|
82.
Nemathelminthes
|
Gegenbaur (1859)
|
83.
New Systematics
|
Huxley
|
84.
Nucleic acid
|
Altman
|
85.
Nucleolus
|
Bowman
|
86.
Nucleoplasm
|
Strasburger
|
87.
Nucleus
|
Robert
Brown
|
88.
Parazoa
|
Solas
|
89.
Parthenogenesis
|
Charles
Bonnet
|
90.
Phenotype
|
Johansen
|
91.
Photoperiodism
|
Garner
and Allard
|
92.
Photorespiration
|
Decker
|
93.
Phycobillin
|
Lemberg
|
94.
Phylum
|
Cuvier
|
95.
Physiology
|
Fersnel
|
96.
Plasmodesmata
|
Strasburger
|
97.
Plastid
|
Earnest
Haeckel
|
98.
Platyhelminthes
|
Gegenbaur (1859)
|
99.
Porifera
|
Robert Grant
|
100.
Prion
|
Prusiner
|
101.
Prophase
|
Strasburger
|
102.
Protein
|
G.J
Mulder
|
103.
Protista
|
Haeckel (1866)
|
104.
Protoplasm
|
Von
Mohl
|
105.
Protoplasmic respiration
|
Blackman
|
106.
Protozoa
|
Goldfuss
|
107.
Ribosome
|
Claude
and Palade
|
108.
Root pressure
|
Stephan
Hales
|
109.
Sarcode
|
Dujardin
|
110.
Sarcosomes
|
Kolliker
|
111.
Secretin
|
Bayliss
and Starling
|
112.
Species
|
John
Ray
|
113.
Spermatozoa
|
Von
Baer (1827)
|
114.
Subphylum
|
Cuvier
|
115.
Survival of the fittest
|
Spencer
|
116.
Symbiosis
|
H.
Anton de Bary
|
117.
Telemophyta
|
Takhtajan
|
118.
Telophase
|
Strasburger
|
119.
Thallophyta
|
Endlichler
|
120.
Tissue
|
Bichat
|
121.
Tracheophyta
|
Sinnott
|
122.
Unit membrane
|
Robertson
|
123.
Vernalin
|
Melchers
|
124.
Vertebrate
|
Lamarck
|
125.
Viroid
|
T.O.
Diener
|
126.
Vitamin
|
Casimir
Funk (1884-1967)
|
127.
Water potential
|
Stalyer
and Taylor
|
128.
Wobble
|
Crick
|
129.
Xenia
|
Focke
|
130.
Zeatin
|
Letham
|