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10/02/2019
Day 1. Landing Sites Selection
Welcome (Ocampo) |
Venera-D Project (Zasova) |
2_-_presentation.Lavochkin.pdf Venera-D Spacecraft (Sedykh & Kosenkova) |
3_-_Lander_science_02-10-2019.pdf Lander Payload (Gerasimov & Economou) |
4_-_Venera-D_-_LLISSE___SAEVe__2019-Final.pdf LLISSE & SAEVe (Kremic) |
5_-_Treiman_CheMIn-V_Venera-D.pdf Chemin-V (Treiman) |
6_-_Schroeder_MIMOS_II_Venera-D.pdf MIMOS II (Schroeder) |
AVEC (Izenberg) |
8_-_Russia_GEER-Kremic2019-compressed.pdf GEER (Kremic) |
VEXAG Documents (Izenberg) |
10_-_Esposito_VET_for_Venera_D.pdf VEXAG Targets Workshop (Esposito) |
11_-_What_do_we_know_about__Elemental___Mineralogicalcomposition_of_Venus_Surface.pdf Surface Elemental Composition (Economou) |
Surface-Atmosphere Interaction (Berger) |
10/03/2019
Day 2. Landing Sites Selection
1_-_landing_site_selection_2019.pdf Site Selection Overview (Ivanov) |
2_-_EnVision_science_Venera_D_workshop_Oct2019_final.pdf EnVision Science (Ghail) |
3_-_Rabinovitch_Landing_Sites.pdf Safe Landing Sites (Rabinovitch) |
4_-_possible_nature_of_tessera_talk_new.pdf Tesserae (Ivanov) |
Venusian Canali (Gregg) |
6_-_Bethelletal_VDW2019_FINAL.pdf Alpha Regio (Bethell & Ernst) |
7_-_Byrne_-_20191003_Venera-D.pdf Mobile Crustal Blocks (Byrne) |
8_-_Beauchamp_moscowlandingsites.pdf NASA Venus Flagship Misison Targets (Beauchamp) |
9_-_Ernst_et_al_2019__Venera-D__FINAL.pdf Geological Testing of Global Warming Models on Venus (Ernst) |
10_-_DIncecco_VeneraD_workshop.pdf Olapa Chasma-Idunn Mons System (D'Incecco) |
11_-_Treiman_Cleopatra_Venera-D.pdf Cleopatra Crater (Treiman) |
10/04/2019
Day 3. Cloud Layer Habitability
Venera-D Lander Cameras (Polyansky) |
Ancient Venus Climate (Way) |
Venus as an Exoplanet (Domagal-Goldman) |
3_-_Limaye_et_al_Why_search_for_biosignatures_on_Venus_-_presented.pdf Case for Search of Bio-signatures (Limaye) |
4_-_Life-in-VenusClouds2019.pdf Terrestrial microorganisms as Analogues for Venusian Microbes (Kotsyurbenko) |
5_-_Grinspoon_Moscow_Venus_Life_2019.pdf Implications of a Venus Cloud Biosphere (Grinspoon) |
6_-_Venera-D-Kompanichenko-presentation.pdf Possible Origin of Life in Early Venus (Kompanichenko) |
7_-_Snytnikov2019-Venera-D.pdf Chemical Basis of a Hypothetical Life on Venus (Snytnikov) |
8_-_Cordova_Venera-D_Presentation_Final.pdf Viability of Microorganisms in a Venus Cloud Analog (Cordova) |
Venus’ Spectral Profiles and the Potential for Microbial Life (Mogul) |
10_-_Venera-D_Habitability_Arif.pdf UV-absorbance of Potential Bacteria (Ansari) |
11_-_Bullock_Moscow_10-5-19.pdf Possible Metabolic Pathways for Microbial Organisms (Bullock) |
12_-_Venera_D_MilojevicT_short.pdf Metallophilic Extreme Thermoacidophiles (Milojevic) |
13_-_presentation_sc_and_orbits.pdf Venera-D Orbits (Kosenkova & Pisarenko) |
10/05/2019
Day 4. Cloud Layer Habitability
1_-_Permanent_infecting_of_the_Venus_upper_atmosphere_by.pdf Infecting of the Venus Upper Atmosphere by Transfer of Terrestrial Microorganisms (Pavlov) |
High stability of Mycobiota to the Impact of Ionizing Radiation (Kruchkova) |
Life Cycle of Acidophillus under Venus Conditions (Słowik) |
Sampling bioaerosols on Earth (Smith) |
6_-_VDW2019_presentation_Gentry.pdf Bioaerosol Sampling Considerations (Gentry) |
7_-_20191004_VeneraD_Moskva-sasaki_onthego.pdf Life-signature Detection Microscope (Sasaki) |
8_-_Baines_VeneraD_Aerosol_Instr_Package_Moscow_Oct2019_FINAL.pdf Aerosol Mass Spectrometer (Baines) |
9_-_Aerobots_to_Explore_Venusian_Clouds.pdf Aerobots to Explore Venusian Clouds (Rabinovitch) |
NASA Strategy for the Search for Life (Voytek) |