Lafayette Parish Research Articles

Home rule in lafayette parish: A new beginning-a new spirit

National Civic ReviewVolume 73, Issue 11 p. 556-560 Article Home rule in lafayette parish: A new beginning-a new spirit Michael W. Mallory, Michael W. Mallory Michael W. Mallory is a student at the University of Southwestern Louisiana, LafayetteSearch for more papers by this author Michael W. Mallory, Michael W. Mallory Michael W. Mallory is a student at the University of Southwestern Louisiana, LafayetteSearch for more papers by this author First published: December 1984 https://doi.org/10.1002/ncr.4100731104 AboutPDF ToolsExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onFacebookTwitterLinkedInRedditWechat Volume73, Issue11December 1984Pages 556-560 RelatedInformation

Rock Compressibility and Failure as Reservoir Mechanisms in Geopressured Gas Reservoirs

A study of the North Ossun field, Louisiana, reveals that as reservoir pressure is depleted the increase in net overburden pressure initially pressure is depleted the increase in net overburden pressure initially causes rock failure and as the failure continues with decreasing pore pressure, rock compressibility decreases until eventually it reaches a pressure, rock compressibility decreases until eventually it reaches a normal value. Introduction Rock compressibility has long been recognized as an important factor in material balance calculations of oil in place for closed reservoirs producing above bubble-point pressure. For example, if the pore volume compressibility of the reservoir rock is half of the compressibility of the undersaturated oil, neglect of the rock compressibility term results in about a 50 percent overestimation of oil in place. In general, it percent overestimation of oil in place. In general, it may be stated that in material balance calculations on closed reservoirs, consideration of rock compressibility becomes increasingly important as the fluid compressibility decreases. For this reason the effect of rock compressibility is commonly neglected in studies on gas reservoirs where gas compressibility is usually great. Because gas compressibilities decrease with increasing pressures, the consideration of rock compressibility becomes increasingly important for deeper, high pressure gas reservoirs. For example, the compressibility of the gas in the reservoir to be discussed is 30 microsip** at an initial reservoir pressure of 8,921 psia. For a nominal pore volume rock compressibility of 6 microsip, neglect of rock compressibility in material balance calculations on a closed reservoir will result in a 20 percent overestimation of initial gas in place. If the rock compressibility is larger than 6 microsip, then a still larger over-estimation of gas in place results. In this study we propose that because of low net overburden pressures, rock compressibilities in geopressured reservoirs are considerably greater than for similar rocks in normally pressured reservoirs. We further suggest that as pressured reservoirs. We further suggest that as reservoir pressure is depleted, the increase in net overburden pressure initially causes inelastic rock compaction or rock failure. As failure continues with decreasing pore pressure, rock compressibility decreases and eventually reaches normal values in the range of 6 microsip. North Ossun Field, Louisiana The mechanisms proposed in the previous paragraph are believed to be illustrated by the performance of the NS2B reservoir of the North Ossun field, Lafayette Parish, La. This is a geopressured gas reservoir with an initial pore pressure of 8,921 psia at 12,500 ft subsea depth, or a gradient of 0.725 psi/ft. Table 1 gives pertinent data on this reservoir. Good geologic control is indicated by the structure map, Fig. 1. Although a gas-water contact exists, it is doubtful that the associated aquifer is very large because the reservoir appears to shale out on the west. In addition, considerable complex faulting in the area almost certainly closes the reservoir with a small associated aquifer. Good core and log data have been used to calculate an initial hydrocarbon pore volume of 583 million cu ft, and, with PVT data, to calculate an initial gas in place of 114 Bscf. JPT P. 1528

Developments in Louisiana Gulf Coast in 1967

The Louisiana Gulf Coast includes the 38 southern parishes of Louisiana and 16 continental-shelf areas offshore. Oil and gas are produced from strata ranging in age from Cretaceous to Pleistocene. There were 2,111 development and exploratory wells drilled in 1967, 18% fewer than in 1966. Of the 775 exploratory wells, 22% were successful. Of the 17 new-field discoveries (7 onshore and 10 offshore), the most important are: South Judice field, Lafayette Parish; Manchac Point field, West Baton Rouge Parish; Block 207 field, Ship Shoal Area; and Block 144 field, Main Pass Area. The most significant of the new pools and extensions are in Clear Creek field, Allen Parish; West Lake Arthur field, Jefferson Davis Parish; Block 43 field, Grand Isle Area; Block 30 field, West Delta Area; and Block 133 field, West Delta Area. Geophysical activity declined significantly from the previous year. The federal offshore lease sale in June, in which 744,000 acres were sold for $510,079,177, was the largest ever in the Louisiana offshore.

Geology of South Bosco-Duson-Ridge Area, Acadia and Lafayette Parishes, Louisiana: ABSTRACT

The South Bosco-Duson-Ridge fields area is in the Oligocene and Miocene oil- and gas-producing trends of Acadia and Lafayette Parishes, Louisiana. In wells drilled to sufficient depth, three facies were found: End_Page 2319------------------------------ (1) a Pliocene and Miocene nearshore to continental massive sandstone facies; (2) an early Miocene and Oligocene continental-shelf facies of alternating sandstone and shale; and (3) a thick bathyal shale facies of Oligocene age. Oil and gas production in the area is confined almost entirely to sandstone beds in the continental-shelf facies. South Bosco-Duson-Ridge fields are on a faulted, elongated north-south anticline that trends normal to the regional stratigraphic strike. All faults are normal and are either down-to-the-basin or up-to-the-basin. The down-to-the-basin faults are regional and are parallel with the regional stratigraphic strike. The up-to-the-basin faults are compensating faults confined to the South Bosco-Duson-Ridge complex. The fault throw generally increases with depth. All the faults die out upward in the section in or before reaching early Miocene sedimentary rocks. Strata thicken into the downthrown sides of the faults and thin toward the crest and over the highest parts of the structure. The amounts of thickening or thinning generally increase with depth. Thus, fault movement and anticlinal folding were contemporaneous with sedimentation, continuously from Oligocene into Miocene time, and were most intense during Oligocene time. The South Bosco-Duson-Ridge structure probably originated from faulting and anticlinal folding on the continental slope during Oligocene time. Structural growth was greatest where the structure was in the unstable environment of the hinge line (or shelf edge). Structural activity continued during the deposition of the neritic sediments of the Oligocene and early Miocene but at a steadily reduced rate. The structure was buried by a great thickness of nearshore and continental massive sandstone beds during Miocene and Pliocene time. End_of_Article - Last_Page 2320------------

Paleostructural Analysis and Application of Later Structural Tilting: ABSTRACT

It is reasonable to conclude that hydrocarbons begin to form soon after the organisms from which they are derived are buried with the sediments that constitute both source rock and reservoir bed. Therefore, structural-mapping methods used to define likely areas of accumulation should be used to reconstruct the geologic history from the time of deposition by analyzing both the initial structural growth and the later structural tilting that influenced the migration and entrapment of the hydrocarbons. Structural mapping methods, commonly used today, locate structure as it presently appears without regard for (1) initial local structural uplift which influenced the movement of hydrocarbons as they began to migrate, or for (2) later structural tilting which tended to breach the original trap and possibly caused the original accumulation to move to another place. Therefore, it is possible, using customary structural mapping methods, to map a high properly that has no accumulation because no trap existed at the critical time of initial migration. Likewise, it is also possible that the initial structural closure has no accumulation today because it was breached by later structural tilting. The purpose of this paper are (1) to demonstrate a logical method of paleostructural mapping by use of carefully selected isopachous intervals, and (2) to define later structural tilting and to present a practical method of applying it to understand and define better the likely areas of accumulation. Examples of application at North Francitas field, Jackson County, Texas, and at Rayne-Bosco-Ossun fields, Acadia and Lafayette Parishes, Louisiana, are presented. End_of_Article - Last_Page 2323------------

A Recent Collection of Fissidens neonii

Fissidens neonii (Bartr.) Grout has been found for the first time since the original collection in 1931. Growth studies show that new plants commonly arise from buried sterile stems and from rhizoids. Male, female, and sterile plants are morphologically distinct and are independent at maturity; all three types may originate from the same leaf axil or rhizoid. Fissidens neonii does not appear to be closely related to any other North American species of the genus. Fissidens neonii (Bartr.) Grout was described as a Moenkemeyera by Bartram (1931) from a collection made by Brother N6on in the vicinity of Lafayette, Louisiana. Because of its entire peristome teeth Bartram placed the species in Moenkemeyera although noting that the spores (20-25/ in diameter) were unusually large for the genus. The species was subsequently treated as a Fissidens by Grout (1936, 1941, 1943). This distinctive little moss had apparently not been found since Brother Nion's original collection in 1931. Serious searches for it in Lafayette Parish over the past few years were unsuccessful until January, 1965, when I found it just east of the Lafayette city limits near the Vermilion River. The minute, closely gregarious plants were restricted to an area of only a few square feet; they were growing with Philonotis sp., Ditrichum pallidum, and Fissidens viridulus on the steep sides of a cow path leading into an oak-dominated coulee. Surrounding the coulee are broad meadows that slope gently into it, suggesting that it occupies the bottom of an ancient river meander. The coulee now drains Pleistocene terrace lands with a maximum elevation of 35 feet above sea level (Howe & Moresi 1933) and leads into the Vermilion River about 1,500 feet from the site of the recent collection. Brother N6on did not include any specific locality or habitat data with his collection but Bartram noted in his description that the soil with the specimen was light and loamy; this is the type of soil at the present site. Although the area was searched carefully, no other colonies of F. neonii were found. Brother N6on, now at the Pennsionat de Notre Dame, Le Puy, France, responded to inquiries about the circumstances of his collection of F. neonii that he did not recall which particular location around Lafayette had yielded the species. The de la Salle Provincial House in Lafayette, where Brother Nion was stationed in 1931 and which was the starting point for his collecting walks, is on the west bank and upriver about two miles from the present site. It is on the same terrace and is cut by similar meander scars. Most of the original 1 Department of Biology, University of Southwestern Louisiana, Lafayette, Louisiana. This content downloaded from 207.46.13.128 on Tue, 06 Sep 2016 05:30:03 UTC All use subject to http://about.jstor.org/terms 3Zii~iOidB iijji~iii~~,~j!iiidiiii iiji::jiii::iiliiilj~ :':~:':`:':':':`:':':'-':'''~:':':': iiiiCFiiiB)iiiiii':ljr i.ii'~i. i:?:~;~iiiiii~ I~ili~lil~

A Natural Hybrid between Weissia and Astomum and Notes on the Nomenclature of the North American Species of Astomum

Hybrid sporophytes, resulting from natural hy- bridization between Weissia controversa and Astomum ludovi- cianum, are intermediate in characteristics between those of the parents. Some of the hybrid sporophytes failed to produce spores while in others the spores were frequently deformed and were largely or completely sterile. The three North Ameri- can species of Astomum are transferred to the genus Weissia. Both Weissia controversa and Astomum ludovicianum occur in abundance on the heavy clays of southern Louisiana. They fre- quently grow together and both produce sporophytes at about the same time, towards the end of the rainy season, in early spring. Thus conditions for their hybridization are potentially favorable in this area. Indeed we both have occasionally seen individual sporo- phytes, growing with those of Weissia and Astomum, which seemed to be intermediate in appearance between those of the two species. In March of this year, one of us (W.D.R.), while collecting in a low, wooded area in Lafayette Parish, found a lump of clay bearing a population of fruiting plants that seemed to include, among other species, Weissia controversa, Astomum ludovicianum, and a large number of individuals bearing sporophytes intermediate between those of the Weissia and Astomum. The lump of clay was, in fact, an almost perfect experimental set-up. It has been turned up by the passage of a vehicle through the wet woods; on one side of the lump was an almost pure stand of Weissia, and on the opposite side there was a dense growth of Astomum. Between the Weissia and the Asto- mum grew the plants with intermediate sporophytes. In addition there were also present a number of plants of Astomum muehlenbergianum,

Notes on the Mosquitoes of Louisiana1

This paper is a partial report of a study begun in 1941 as a survey of the mosquitoes of East Baton Rouge Parish in Louisiana. In 1949 and 1943 the writer was stationed as an entomologist in the Malaria Control in War Areas program of the United States Public Health Service at Alexandria, Louisiaua, with supervision of entomological inspectors at military and defense installations in Caddo Bossier, Webster, Lincoln, Ouachita, Rapides, Vernon, Beauregard, Calcasieu, and Lafayette Parishes. In addition to numerous mosquito surveys made in these areas, the writer identified approximately 13,000 mosquitoes from New Jersey light traps