Colored gravity anomaly and terrain maps of the east-central United States

1981 ◽  
Author(s):  
Robert W. Simpson ◽  
Richard H. Godson
2014 ◽  
Vol 15 (3) ◽  
pp. 92-96 ◽  
Author(s):  
Guirong Zhang ◽  
Carl A. Bradley

Historically, frogeye leaf spot (FLS, caused by Cercospora sojina) of soybean has been observed more frequently in the southern United States than the north-central United States. However, in recent years, FLS field observations have increased in the north-central United States. To better understand the survival rate of C. sojina in Illinois, a field study was conducted at three locations: Monmouth (west-central Illinois), Urbana (east-central Illinois), and Dixon Springs (southeastern Illinois). At each location, soybean leaves affected by FLS were placed at depths of 0, 10, and 20 cm and retrieved at different durations up to 24 months. To determine the viability of C. sojina in the collected leaves, a greenhouse bioassay was used. Survival of C. sojina declined equally with time at all three locations through 19 months. After 24 months, C. sojina from leaves that had been placed at Monmouth and Urbana were no longer viable, whereas leaves that had been placed at Dixon Springs produced viable inoculum. Depth of leaf placement had no effect on survival of C. sojina at any of the locations. These results suggest that planting a nonhost crop for two years in central Illinois will reduce levels of C. sojina inoculum to a negligible amount; however, soybean farmers in southern Illinois may need a longer rotation for FLS management. Accepted 10 May 2014. Published 23 July 2014.


1996 ◽  
Vol 70 (5) ◽  
pp. 835-866 ◽  
Author(s):  
Thomas W. Kammer ◽  
William I. Ausich

Species of the late Osagean and early Meramecian primitive cladid crinoid generaAtelestocrinus, Barycrinus, Cestocrinus, Costalocrinus, Cyathocrinites, Meniscocrinusn. gen.,Parisocrinus, Pellecrinus, andSaccosomopsisfrom Illinois, Indiana, Iowa, Kentucky, Missouri, and Tennessee are reviewed, redescribed, and redefined from study of type material, museum collections, and field collections. Nomenclatural and systematic acts include the following: 1)Barycrinus spurius(Hall, 1858) is a senior synonym ofCyathocrinus tumidusHall, 1858,C. protuberansHall, 1858, andB. mammatusMeek and Worthen, 1873; 2)B. rhombiferus(Owen and Shumard, 1852a) is a senior synonym ofC. sculptilisHall, 1860,C. thomaeHall, 1860,C. hoveyiHall, 1861a,C. wachsmuthiMeek and Worthen, 1861,B. herculeusMeek and Worthen, 1868,B. pentagonusMeek and Worthen, 1873,B. striatusWorthen, 1875,B. boonvillensisMiller, 1891b,B. formosusMiller and Gurley, 1894,B. washingtonensisMiller and Gurley, 1895, andB. elrodiMiller and Gurley, 1896a; 3)B. magister(Hall, 1858) is a senior synonym ofC. solidusHall, 1861a andB. magnificusMeek and Worthen, 1868; 4)B. stellatus(Hall, 1858) is a senior synonym ofC. bullatusHall, 1858,C. angulatusMeek and Worthen, 1860,C. quinquelobusMeek and Worthen, 1865, andB. astericusVan Sant, 1964; 5)B. crassibrachiatus(Hall, 1860) is a senior synonym ofB. princepsMiller and Gurley, 1890a; 6)B. geometricusMeek and Worthen, 1873, is considered a nomen dubium; 7)B. benedicti(Miller, 1891a) is considered a nomen dubium; 8)Cyathocrinus signatusMiller and Gurley, 1894, is assigned toCestocrinusand is a senior synonym ofCestocrinus striatusKirk, 1940; 9)Cyathocrinites iowensis(Owen and Shumard, 1850) is a senior synonym ofC. malvaceusHall, 1858,C. divaricatusHall, 1858,C. rotundatusHall, 1858,C. viminalisHall, 1861a,C. parvibrachiatusHall, 1861a,C. hamiltonensisWorthen, 1882,C. nodosusWachsmuth and Springer, 1890,C. brevisacculusWachsmuth and Springer, 1890,C. opimusMiller and Gurley, 1890a, andC. gurleyiMiller, 1891a; 10)C. kelloggi(White, 1862) is a senior synonym ofC. subtumidusMeek and Worthen, 1865; 11)C. farleyi(Meek and Worthen, 1866b) is a senior synonym ofC. andersoniMiller and Gurley, 1894,C. granulosusRowley, 1902, andC. snivelyiRowley, 1902; 12)C. harrodi(Wachsmuth and Springer, 1880) is a senior synonym ofC. boonvillensisMiller, 1891b,C. gorbyiMiller, 1892b, andC. astralusKammer, 1984; 13)Meniscocrinusn. gen. is described andM. magnitubusn. sp. is assigned to this new genus; 14)C. labyrinthicusMiller, 1891a, is assigned toParisocrinus; 15)C. intermediusHall, 1858, is assigned toPellecrinus; and 16)C. insperatusLyon, 1869, is assigned toSaccosomopsisand is a senior synonym ofC.?poteriumMeek and Worthen, 1870.


2008 ◽  
Vol 274 (3-4) ◽  
pp. 489-498 ◽  
Author(s):  
Frédéric Deschamps ◽  
Sergei Lebedev ◽  
Thomas Meier ◽  
Jeannot Trampert

1994 ◽  
Vol 3 (3) ◽  
pp. 217-223 ◽  
Author(s):  
W.W. Roath ◽  
M.P. Widrlechner ◽  
R. Kleiman

2003 ◽  
Vol 77 (1) ◽  
pp. 121-138 ◽  
Author(s):  
Thomas W. Kammer ◽  
Forest J. Gahn

All 19 known species of the primitive cladid crinoid genera Atelestocrinus, Cyathocrinites, Goniocrinus, Parisocrinus, Pellecrinus, and Zygotocrinus from the early Osagean Burlington Limestone of the North American midcontinent are reviewed and redescribed or, where necessary, redefined. Nine of these species are illustrated for the first time herein. Sixteen are considered valid, including C. deroseari n. sp. Of the remaining three species, one is left in open nomenclature, and two are considered nomen dubia. Pellecrinus is recognized for the first time from the Burlington Limestone, although the specimens can not be identified to the species level and are left in open nomenclature.Cyathocrinites ranges from the Middle Silurian to at least the Middle Mississippian. During the Early Mississippian Cyathocrinites experienced an evolutionary radiation with a maximum diversity of nine species in the Burlington Limestone. Phylogenetic relationships were investigated in a parsimony-based phylogenetic analysis by combining morphologic data from the Burlington species with data from the four other species of Cyathocrinites from the late Osagean and early Meramecian of the east-central United States. The Kinderhookian C. chouteauensis (Miller and Gurley, 1896) served as the outgroup. A phylogenetic analysis of 14 species of Mississippian Cyathocrinites yielded a single most parsimonious tree with a length of 28 steps (C. I. = 0.607, H. I. = 0.392, R. I. = 0.718, R. C. = 0.436). Results of this analysis suggest that at least two major clades existed within Mississippian Cyathocrinites. One clade contains C. sampsoni (Miller, 1891b), C. gilesi (Wachsmuth and Springer, 1878), C. farleyi (Meek and Worthen, 1866), and C. barydactylus (Wachsmuth and Springer, 1878). The second clade contains C. iowensis, C. kelloggi (White, 1862), C. barrisi (Hall, 1861a), C. rigidus, C. deroseari n. sp., C. asperrimus (Springer, 1911), C. lamellosus (White, 1863), and C. harrodi (Wachsmuth and Springer, 1880). Cyathocrinites multibrachiatus forms a polytomy with these two clades. Members of the first clade exhibit a unique overall morphology present only during the Mississippian, suggesting the clade arose during this time. Members of the second clade, plus C. multibrachiatus, exhibit some characters present in Cyathocrinites species as old as the Middle Silurian and, thus, may have its roots among Silurian and Devonian species.


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