Zeolitic basanite from southeastern California

In a belt of Quaternary volcanism within the Mojave Desert, California, lavas of alkali-olivine basalt have been extruded from many centers. Also three small volcanoes erupted alkaline lavas similar to basanite, except that the zeolites phillipsite and chabazite crystallized in the groundmass instead of the usual feldspathoid. These zeolite-bearing lavas, more alkaline than the olivine basalts, brought many peridotitic nodules to the surface. Two of the volcanoes built cones 500 to 600 feet high and extruded several short lava flows. The third volcano is smaller and mostly covered by younger alluvium. All three cones are composed of cinders, bombs and blocks, and lava spatter. The lava spatter strengthened the cones, making it possible for one or two flows to pour over the rims. Short flows also issued from fissures cutting the flanks of the cones. The two larger volcanoes each concluded with a flow that began issuing from a fissure that enlarged until one side of the cone was rafted away. Even these final flows are small. The basanitic lavas have an average composition ofSiO ₂>=44.5;TiO ₂=3.4;Al ₂ O ₃=14.5;Fe ₂ O ₃=5.0;FeO=7.3;MnO=0.2;MgO=7.4;CaO=9.0;Na ₂ O=4.1;K ₂ O=2.3;P ₂ O ₃=1.1;CO ₂=0.1; andH ₂ O=1.0. The lavas are very fine-grained and hypocrystalline with microphenocrysts of olivine (Fo ₈₅). The groundmass consists of olivine (Fo ₇₀), plagioclase (An ₄:), titanaugite, titanmagnetite, ilmenite, glass (less than 10%), and the zeolites-phillipsite and chabazite. The zeolites occur in small irregular patches only in the nearly holocrystalline centers of the flows. The basanites contain abundant peridotitic nodules, xenoliths of partially fused granite, and xenocrysts (possibly cognate) of titanaugite and kaersutite. The minerals in the inclusions, except for olivine and clinopyroxene, have all reacted with the alkaline melt. In several flows the nodule enstatite has been partially replaced by titaniferous clinopyroxene; this reaction drew so much lime and silica from the surrounding melt that zeolite formed a halo around the reaction rim. Three chemical analyses show about 15% normative nepheline, even though there is no modal nepheline. The feldspathoid is represented instead by the undersaturated zeolites phillipsite and chabazite. A high water content in the magma probably accounts for the occurrence of zeolite. The peridotite nodules do not occur in the nearby, less alkaline lavas, and they appear to be cognate. The separation of olivine and enstatite under high pressures can produce the basanite liquid from the same magma that yields the alkali-olivine basalt liquids by olivine crystallization under low pressures.     

Periodicities in blue crab population of Chesapeake Bay

Analysis of the annual blue crab catch in Chesapeake Bay for the years 1922–1976 shows that there are variations with periods of 18.0, 10.7, and 8.6 years. Analysis of Philadelphia air temperatures shows periods of 17.5, 9.8, and 7.4 years. The periods of 18.0 and 17.5 years agree with the 18.6 year period of the Earth-Moon-Sun tidal force, and the periods of 8.6 and 7.4 years agree with the 8.8 year period of the Earth-Moon-Sun tidal force, within experimental error. The periods of 9.8 and 10.7 years, for the temperatures and crabs, respectively, are probably related to the 10.5 year sunspot cycle within experimental error.     

Water uptake by two river red gum (Eucalyptus camaldulensis) clones in a discharge site plantation in the Western Australian wheatbelt

The heat-pulse technique was used to estimate year-long water uptake in a discharge zone plantation of 9-year-old clonal Eucalyptus camaldulensis Dehnh. near Wubin, Western Australia. Water uptake matched rainfall closely during weter months but exceeded rainfall as the dry season progressed. Average annual water uptake (1148 mm) exceeded rainfall (432 mm) by about 2.7 fold and approached 56% of pan evaporation for the area. The data suggest that at least 37% (i.e. (1/2.7) × 100) of the lower catchment discharge zone should be planted to prevent the rise of groundwater.

Water uptake varied with soil environment, season and genotype. Upslope trees used more water than did downslope trees. Water uptake was higher in E. camaldulensis clone M80 than in clone M66 until late spring. The difference reversed as summer progressed. Both clones, however, have the potential to dry out the landscape when potential evapotranspiration exceeds rainfall. This variation in water uptake within the species indicates the potential for manipulating plantation uptake by matching tree characteristics to site characteristics.

Controlled experiments on the heat-pulse technique indicated accuracy errors of approximately 10%. This, combined with the ability to obtain long-term, continuous data and the superior logistics of use of the heat-pulse technique, suggests that results obtained by it would be much more reliable than those achieved by the ventilated chamber technique.     

Chemical beneficiation of zircon concentrates in Western Australia

Western Australian zircons are typically brown-strained and inherently tinged with colour so that production of premium grade zircon has required special attention. The brown coating interferes with the separation of zircon from other minerals and adds to the level of impurities, particularly iron, in the product. Even when the stain is removed the zircon's pink-purple hue detracts from its market appeal. Two separate processes for the beneficiation of zircon to premium grade have been evaluated for three typical Western Australian zircon concentrates. One of the processes has been successfully implemented on a commercial scale.     

Testing theories of the vertical stratification of the ACC against observations

Recent theories of the Antarctic Circumpolar Current (ACC) suggest that its lateral and vertical stratification is controlled by its baroclinic instability: eddies in the ACC not only feed-off the available potential energy stored in sloping isopycnals but play a central role is setting up that stratification. Simple theory makes predictions about how the depth of the thermocline in the ACC depends on the surface winds, the air–sea buoyancy flux and transfer by baroclinic eddies. By examining gridded hydrographic data, here we test some of these predictions against observations. We show that, to a remarkable degree, the buoyancy field in the ACC decays exponentially with depth beneath the mixed layer. The e-folding depth increases equatorward, from less than 500 m on the poleward flank of the ACC to greater then 1000 m on its equatorial flank, in a manner that is broadly consistent with the theory.     

The antiquity of aroid pit agriculture and significance of buried A horizons on Pacific atolls

The cultivation of aroids (herbaceous plants with starchy corms) is the foundation of Oceanic societies, yet the study of prehistoric atoll agriculture (utilizing Cyrtosperma chamissonis) has been almost totally neglected. Aroid pit agricultural features, some measuring up to 100 m long and 20 m wide, excavated in the Marshall Islands (center ca. 8°N latitude, 170°E longitude) provide the first chronometric dates (1910 ± 70 B.P., Beta-79576) for this type of cultivation practice associated with coral atolls found throughout the Pacific. Excavations through an aroid pit cultivation pit rim identified a stratigraphic sequence beginning with the sterile subsoil, an A horizon deeply buried under pit spoil dirt, and a prehistoric midden deposit beginning below the surface A horizon. Granulometric analysis of sediments and identification of foraminifers documented the nearshore lagoon as the source for all non-cultural sediments. Anthropophilic land snails (Gastrocopta pediculus and Lamellidea pusilla) in the dated, buried A horizon is a firm basis for confirming the presence of humans near initial colonization (ca. 2000 B.P.) and anchors the culture-historical sequence for the long-term study of human impacts to low coral islands. Consequently, on-going analyses of plant opal phytoliths, starch grains, and charcoal from the buried A horizon, should document the nature of early atoll ecology prior to significant human modification. As aroid pit construction is associated, in many examples, with traditional property boundaries, detailed mapping and dating of these cultivation systems should relate to changes in land tenure and prehistoric social organization. © 1999 John Wiley & Sons, Inc.