The phylogeny, evolutionary trends, and timing of diversification of deep-s
ea organisms remain largely unknown. The purpose of this paper is to highli
ght the taxonomy and phylogeny of deep-sea calcareous trochospiral benthic
foraminiferal genera which mainly inhabit the top few centimeters of sea fl
oor sediment. This report describes the phylogeny of 19 genera including fi
ve new genera and 17 new species, and a new taxonomic classification at the
family level. The classification of families and the phylogeny of genera b
ased on morphological intergradation differs fundamentally from previous ta
xonomic schemes which used radial-granular texture as one of the important
categories for suprageneric classification. Two types of generic evolution
are recognized: (a) evolution starting from small species (>400 mu m) and o
ccurring during Aptian and Turonian to Santonian time and (b) that starting
from lar er species occurring during the Campanian to Paleocene. Low disso
lved oxygen conditions may have caused the former type of evolution and hig
h dissolved oxygen states may have led to the latter. General evolutionary
trends among the trochospiral group include a decrease in roundness of the
peripheral margin, development of a peripheral keel, a distinct increase in
pole size, and an increase in test size. The phylogeny exhibits major dive
rsifications in the early Aptian to early Albian(118-110 Ma) and Turonian t
o early Maastrichtian(91-71 Ma), subsequent to two major mid-Cretaceous ano
xic events. No distinct diversification of calcareous trochospiral genera o
ccurred during the latest Cretaceous to Holocene. The timing of major diver
sifications among deep-sea foraminiferal faunas differs from early Cenozoic
diversifications experienced by terrestrial and pelagic faunas. This sugge
sts that different paleoenvironmental causes affected the evolution of deep
-sea foraminifera and surface dwelling faunas (mammalia and planktonic fora
minifera), over the past 120 m.y.