Tables
 

1.         Genera of the Saprolegniaceae
2.         Representative “bait” types
3.         Methods of isolation
4.         Ho’s medium for isolation of Saprolegnia species
5.         Seymour’s isolation medium 
6.         Emerson’s YpSs medium
7.         Cooke’s medium
8.         Barksdale’s medium
9.         Chemically defined medium of Yang and Schoulties 
10.       Lilie’s medium 
11.       McKay’s MSM medium
12.       Chemically defined medium of Scott, Powell, and Seymour
13.       Occurrence of watermolds with respect to pH (A) (B) (C)
14.       Occurrence of some species in relation to pH 
15.       Saprolegniaceae in brackish water 
16.       Sporulation types in relation to habitat 
17.       Seasonal distribution patterns 
18.       Seasonal classification of species 
19.       Seasonal frequency and oospore type 
20.       Genera grouped according to spore swarming pattern 
21.       Chemotactic responses 
22.       Oospore germination 
23.       Major organelles in primary and secondary planonts
24.       Fine structure of spore cyst wall 
25.       Carbohydrates used as carbon sources
26.       Organic nitrogen compounds used as carbon sources 
27.       Utilization of amino acids
28.       Utilization of ninhydrin-positive compounds 
29.       Temperature regimes for in vitro growth
30.       Growth in response to pH, in vitro
31.       Utilization of carbon sources by Aphanomyces euteiches 
32.       Growth responses of two species of Aphanomyces to temperature and pH 
33.       Growth responses to temperature and pH by some Saprolegnia species from fish 
34.       Sporangium production in peptone and glucose media
35.       Barksdale’s medium for promoting oogonium formation 
36.       Temperatures and the production of oogonia
37.       Substrate pH and the production of sex cells 
38.       Raper’s hormonal concept in Achlya
39.       Some enzymes from the mycelium of watermolds 
40.       Nonhormonal sterols from the mycelium of watermolds 
41.       DNA base compositions
42.       Chromosome number
43.       Sulfur-free compounds in in vivo control of pea root rot
44.       Host plants for Aphanomyces euteiches 
45.       Host plants for Aphanomyces cochlioides
46.       Cruciferous host plants for Aphanomyces raphani
47.       Host range of parasites and pathogens of some fish and their eggs 
48.       Species of Crustacea susceptible to Aphanomyces astaci 
49.       Species of Saprolegniaceae associated with various aquatic or amphibious animals

Figures
 

1.         Kohlmeyer double coverslip mount
2.         Fletcher windowed Petri dish
3.         Species numbers and yield from samples
4.         Dick’s hypothesis of propagule movement
5.         Morphogenetic changes in habitat types
6.         Seasonal occurrence and oospore type
7.         Seasonal occurrence in North Carolina
8.         Seasonal occurrence in Denmark
9.         Seasonal occurrence in Poland; ¯ebrowska
10.       Seasonal occurrence in Poland; Stpiczyñska
11.       Seasonal occurrence in Nigeria
12.       Stages in sporangium morphogenesis
13.       Prescott hypothesis of spore orientation movements
14.       Stages in oogenesis and antheridial development
15.       Antheridial branch origins
16.       Oospore types
17.       Wall vesicles
18.       Mitochondria and associated organelles
19.       Endomembrane system
20.       Lomasomes and plasmalemmasomes in hyphal apex
21.       Lomasomes and plasmalemmasomes in incipient exit papillae
22.       Ultrastructural changes in somatic mitosis
23.       Early metaphase, mitotic division
24.       Late telophase, mitotic division
25.       Centriole
26.       Centriole replication
27.       Early metaphase nucleus
28.       Transverse wall and basal septum
29.       Vesicles in sporangium
30.       Late stage in spore cleavage
31.       Dense-body vesicles
32.       Kinetosomes in primary spore
33.       Transition zone, kinetosome/flagellum
34.       Vesicle in encysted primary spore
35.       “Unidentified body”, motile spore of Aphanomyces euteiches
36.       Major organelles in primary planont
37.       Major organelles in secondary planont
38.       Microtubules in apex of primary planont
39.       Microtubule flagellar “root” anchorage system
40.       Cleavage of cytoplasm in oogonial initial
41.       Neutral lipid and dense-body vesicles in developing oosphere and oospore
42.       Deposition of wall material in oospheres and oospores
43.       Stages in meiosis in oogonium
44.       Oospore germination
45.       Contact region between fertilization tube and oosphere
46.       Cloverleaf configuration in meiosis
47.       Fertilization apparatus
48.       Remnant of fertilization peg
49.       Sequence of events accompanying antheridial-induced differentiation
50.       Structure of antheridiol and the oogoniols
51.       Possible evolution of zoosporic groups based on nutritional capabilities
52.       Possible evolution in zoosporic groups based on allosteric control of GDH
53.       Comparison of the Gäumann and Bartnicki-Garcia schemes of phylogeny
54.       Phylogenetic relationships among genera according to Humphrey
55.       Phylogenetic relationships among infrafamilial groups according to Cejp
56.       Reductions in pea root rot severity by soil amendments
57.       Effect of isomers of methionine on pea root rot severity
58.       Hyphal penetration and melanization defense reaction in Astacus astacus
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