Enhanced phytoremediation: A study of mycorrhizoremediation of heavy metal–contaminated soil

Arbuscular mycorrhizal fungi (AMF) are microscopic fungi that occur naturally in soil and form a symbiosis with plant roots. By colonizing the roots, the fungus increases plant growth by making soil essential elements like zinc and phosphorus more accessible. AMF can play a role in the phytoremediation of heavy metal–contaminated soil (mycorrhizoremediation). Two research experiments were conducted to evaluate the impact of AMF on the extraction of different heavy metals (arsenic, cadmium, lead, selenium, and zinc) in contaminated soil. A grass mixture composed of Festuca rubra, Festuca eliator, Agropyron repens, and Trifolium repens was used in the experiments, and four different types of AMF were investigated: Glomus intraradices, Glomus mosseae, Glomus etunicatum, and Gigaspora gigantea. The results of the study showed that heavy metal extraction by Glomus intraradices colonized plants was the highest of all four AMF tested and was generally higher than nonmycorrhizal plants, depending on the heavy metal concentration in soil and whether it interacted with other metals in soil. However, metal extraction by AMF colonized grasses reached a plateau after an approximately two‐month period showing no further phytoaccumulation. © 2006 Wiley Periodicals, Inc.     

Alignment of the Lumbar Vertebrae in a Driving Posture

The purpose of this study was to define the anatomical arrangement of the lumbar spine in the mid-body sagittal plane of a human volunteer while in three postures: a driving posture; full flexion; and full extension. Radiographic images of the lumbar spine were made of a 33-year old 50th percentile male subject seated in a comfortable driving posture. Additional radiographs were made of the lumbar spine while the subject was postured in full voluntary flexion, and full voluntary extension. Anterior and posterior mid-sagittal vertebral endplate positions were plotted on an x-y coordinate system for each posture. Anterior and posterior disk thicknesses, and the positions of the centers of each vertebra were numerically determined using information from the plots. Disk thicknesses were then graphed and comparisons made for each posture. The arrangements of the centers of vertebrae were graphed and compared for the three different postures. The arrangement of the lumbar vertebrae tended toward that of full voluntary flexion while the subject was in a normal driving posture. Anterior disk thickness was a sensitive indicator of posture, while posterior disk thickness was not. While in a driving posture, the lower back approximated a straight-line that was nearly parallel to the seat back axis. The observations support those of an earlier study. Since soft tissue spinal elements can only be damaged by applying tensile forces in excess of their tolerance, the anterior elements of the lumbar spine would not be directly threatened in low velocity frontal collisions, since anterior elements would be in relative compression. Tension injury to the anterior structures as a result of a rear-end collision would first require reversing the preimpact conditions imposed by the normal driving posture. Tension injury to the posterior spinal elements resulting from low velocity rear-end collisions would be unlikely since axial compression loading would also diminish tension stress in posterior soft tissue structures. Any compression injury to posterior elements resulting from rear-end collisions would first require reversing the pre-impact conditions imposed by the normal driving posture.     

Joint institutional arrangements for addressing transboundary water resources issues—lessons for the GEF

The lofty goals of the 1992 Earth Summit regarding sustainable development will not be achieved without major improvements in the management of transboundary water resources. This paper describes the serious nature of water-related conflicts and environmental damage associated with degradation of marine ecosystems, coastal zones, and shared surface/groundwater systems. Traditional approaches such as international conventions, watercourse agreements with basin organizations, and arbitration have generally fallen short of their objectives. This article suggests that a middle ground centered on multicountry institutional arrangements for joint fact finding, evaluation, and problem resolution may be a more productive approach over the short term to achieve sustainable development. The experience of the International Joint Commission (Canada and U.S.) is described as a way of providing a neutral ground for building trust among nations, for 'leveling the playing field' among small and large countries, and for providing mechanisms for countries to work jointly toward sustainable development of their shared resources without relinquishing their sovereignty. The Global Environment Facility (GEF) is playing a catalytic role in assisting countries to address transboundary water resources issues. The paper describes GEF's Operational Strategy and discusses the implications of joint institutional arrangements for the international waters focal area. Given that the environmental security of many nations rests on improved transboundary cooperation, the GEF provides a pragmatic opportunity for countries to cooperatively address these pressing problems.     

Die Isolierung eines kristallisierten Peptids aus Tabakmosaikvirus

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