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Vascular dynamics. Impedance plethysmograph study during a standardized tilt table procedure.Basic studies on Hirudo medicinalis for a space experiment. II. Behavior of Hirudo medicinalis in unnatural environments.Space clinical medicine. A prospective look at medical problems from hazards of space operations.The influence of long-term intermittent exposures to hypoxia on gastric emptying time in rats.The influence of prolonged semi-starvation on the incidence of pulmonary hemorrhage following rapid decompression.An environmental chamber system for prolonged metabolic studies on small animals.Survival of microorganisms in a simulated Martian environment.Basic studies on Hirudo medicinalis for a space experiment. I. Behavior of Hirudo medicinalis in natural environment.Effects of vagotomy and increased blood pressure on the incidence of decompression-induced pulmonary hemorrhage.Vegetative life on Venus? Or investigations with algae which grow under pure CO 2 in hot acid media at elevated pressures.The relation between eardrum failure and blast-induced pressure variations.Microbial sterilization in ultra-high vacuum and outer space: a kinetic comparison.Space related research in mycology concurrent with the first decade of manned space exploration.Habitability factors in a rotating space station.Origin of terrestrial polypeptides: a theory based on data from discharge tube experiments.Exponential decontamination models for count data.Survival of micro-organisms in space. Comparison of survival data obtained in fifteen balloon-, rocket-, and satellite-borne exposure experiments with incident solar photons.The prospect of life on Jupiter.Biological losses and the quarantine policy for Mars.Lipid composition of slash pine tissue cultures grown with lunar and earth soils.Effect of simulated lunar impact on the survival of bacterial spores.The mammalian response to lunar particulates.Response of tobacco tissue cultures growing in contact with lunar fines.Effect of lunar materials on plant tissue culture.Estimating the number of terrestrial organisms on the moon.Study of carbon compounds in Apollo 12 and 14 lunar samples.Lunar carbon chemistry: relations to and implications for terrestrial organic geochemistry.Lunar organic analysis: implications for chemical evolution.The search for indigenous lunar organic matter.In situ synthesis during organic analysis of lunar samples.Terrestrial contamination in Apollo lunar samples.Aromatic and heteroatom-containing organic compounds in the lunar samples.Research for amino acids in lunar samples.Problems in the search for amino acids in lunar fines.A quest for porphyrins in lunar soil: samples from Apollo 11, 12 and 14.Analyses of the returned lunar surface fines for porphyrins.The organic analysis and carbon chemistry of lunar samples: their significance for exobiology. Fluorescence spectroscopy.Ion-exchange chromatography in lunar organic analysis.Gas-liquid chromatography in lunar organic analysis.Extralunar sources for carbon on the moon.
P1433
Q33171126-C0E43270-F36C-4AB6-98DA-513399167740Q33474212-4939E9F4-D25E-460B-837C-742611B583ADQ33474216-58A20AA1-E1FD-49C8-8545-64D801D7BE1EQ33475688-388A76A1-4AB5-4C5B-B318-9B2FFE81783CQ33475691-EA5D5B38-F9B9-4C9E-8162-D2C77E6A5E72Q33475694-C772CC7F-8E76-44C6-8309-7B5383982C44Q33476677-4CA73484-4882-472E-BC0F-A416B7BC9CB7Q33476681-40D7BF6F-0714-472F-8060-4119FDB77A77Q33476868-F02A6328-29CB-49D7-A985-C02EACBD87B5Q33478654-5391CE38-4095-49DD-87B2-3E897FA1B164Q33478658-C2402D09-A912-4346-A910-6E9B8B16DAEDQ33478660-A02C8E8D-059F-4080-B7E4-74D50A8754CEQ34214250-FEC29688-5CE4-423D-AC18-DA8A07F81BAAQ34226970-897978A8-CF33-49D8-9C68-3BC112618BBDQ36527032-371E902B-417D-41A7-8F4E-38B6DCDF061BQ36544595-8070466C-5E33-48B1-9637-34C2FE78C4DBQ36556154-98104102-9BA6-485A-90C4-87E38EA75077Q38516368-0A7D86E0-71CF-426A-B9E5-D92BC342ABE5Q38520065-5D786501-6BD5-474F-9112-FE2A59909E81Q38538690-A09F0779-E999-4A11-AF70-FB8D9CBE947FQ38538768-104DCB67-8272-4B1A-A0DC-E2DC84A48F9BQ38538821-FC9CC6A6-1984-4E77-AA8A-417B4F80FBB7Q38538824-BA8F967A-5771-4AA0-BE4F-0BBC1B499553Q38538826-BA1B8CEF-5A96-41D0-A837-6044DEFC8F77Q38538828-F5895C1B-9757-4EA8-8B89-12FAAF80259AQ38538878-7988D6E5-4911-4DB0-AB3F-7ACA36E53922Q38538880-3BB57ABA-5990-4C30-9AA0-42D86DAEF353Q38538881-AF736177-71D0-4536-BDAD-34DAA65CB88CQ38538884-BFD7056A-F187-4794-8584-2B9481138E60Q38538886-E2402B14-6BD3-4989-B606-3A1049E3019DQ38538888-EC3D5C28-DF97-4CE4-9E89-F3C624B21EF4Q38538889-E60F9386-19FA-4805-AA76-73F582B757F8Q38538891-BA364140-A239-4336-929C-398C8142F3A1Q38538893-87456514-C556-41B7-B8DE-2718D21E4140Q38538895-4B031A7C-0402-4CA6-905D-61984630C40EQ38538898-30AF7A00-09B3-4A78-BE75-4D7DBBF1DC37Q38538900-480825C2-34F9-4AF9-8C32-383AD6016621Q38538902-DD042B0C-72BF-4AEA-8F67-C2183C135633Q38538905-9CE6D3C1-41A2-44F4-9D8E-A599C850B6C0Q38538908-15D2EC54-0677-4873-92EF-EDB911FDFC7A
P1433
description
journal
@en
revista científica
@es
rivista scientifica
@it
wetenschappelijk tijdschrift
@nl
wissenschaftliche Fachzeitschrift
@de
name
Space life sciences
@ast
Space life sciences
@en
Space life sciences
@es
Space life sciences
@it
Space life sciences
@nl
type
label
Space life sciences
@ast
Space life sciences
@en
Space life sciences
@es
Space life sciences
@it
Space life sciences
@nl
altLabel
Space Life Sci
@en
prefLabel
Space life sciences
@ast
Space life sciences
@en
Space life sciences
@es
Space life sciences
@it
Space life sciences
@nl
P1055
P1156
P1476
Space life sciences
@en
P236
P3417
Space-Life-Sciences