Astrobotany Literature
This page features astrobotany literature: scientific papers relevant to growing plants in space. Click a year to expand its list of published papers.
- Recycling nutrients from organic waste for growing higher plants in the Micro Ecological Life Support System Alternative (MELiSSA) loop during long-term space missions
- Arabidopsis telomerase takes off by uncoupling enzyme activity from telomere length maintenance in space
- Microgreens for Home, Commercial, and Space Farming: A Comprehensive Update of the Most Recent Developments
- 3D Printing for space food applications: Advancements, challenges, and prospects
- Plant responses to hypergravity: a comprehensive review
- Meta-analysis of the space flight and microgravity response of the Arabidopsis plant transcriptome
- Simulated microgravity affects directional growth of pollen tubes in candidate space crops
- Microgravity and evasion of plant innate immunity by human bacterial pathogens
- Plant and microbial science and technology as cornerstones to Bioregenerative Life Support Systems in space
- Transcriptome profiles of rice roots under simulated microgravity conditions and following gravistimulation
- The first biological experiment on lunar surface for Humankind: Device and results
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Perspectives for plant biology in space and analogue environments
- Algae as sustainable food in space missions
- Comparison of two controlled-release fertilizer formulations for cut-and-come-again harvest yield and mineral content of Lactuca sativa L. cv. Outredgeous grown under International Space Station environmental conditions
- Conducting Plant Experiments in Space and on the Moon
- Diagnosing an Opportunistic Fungal Pathogen on Spaceflight-Grown Plants Using the MinION Sequencing Platform
- Eustress in Space: Opportunities for Plant Stressors beyond the Earth Ecosystem
- Life of Plants in Space: A Challenging Mission For Tiny Greens In An Everlasting Darkness
- Microgravity-Simulation of Plant Growth and its Implications to the Sustainable Development Goals
- Response of Arabidopsis thaliana and Mizuna Mustard Seeds to Simulated Space Radiation Exposures
- Space as a classic environment for microscopic and anatomical studies
- Space food on celestial bodies and on the way there
- SpaceHort: redesigning plants to support space exploration and on-earth sustainability
- Suppression of Cortical Microtubule Reorientation and Stimulation of Cell Elongation in Arabidopsis Hypocotyls under Microgravity Conditions in Space
- Adaptation to real 1/6 g moon gravity contributes to plant development and expeditious acclimation to super-freezing
- Adaptations and responses of the common dandelion to low atmospheric pressure in high altitude environments (article in pre-print, has not yet been certified by peer review)
- Application of metal nanoparticles in space plant cultivation
- Biology and crop production in Space environments: Challenges and opportunities
- Changes in Plants Developed from Dry Seeds Irradiated by Simulated Galactic Cosmic Radiation
- Effects of Space low dose radiations on metabolome of edible plants
- Editorial: Higher Plants, Algae, and Cyanobacteria in Space Environments
- Effects of Clinorotation on the Enzyme Activities and Morphology of Zea mays Seedlings
- Establishment of a closed artificial ecosystem to ensure human long-term survival on the moon (article in pre-print, has not yet been certified by peer review)
- Evaluation on the Growth of Super-Dwarf Rice under LED Lights for Space Agriculture
- From Spaceflight to Mars g-Levels: Adaptive Response of A. thaliana Seedlings in a Reduced Gravity Environment Is Enhanced by Red-Light Photostimulation
- Fusarium oxysporum as an Opportunistic Fungal Pathogen on Zinnia hybrida Plants Grown on board the International Space Station
- Gravity sensing in plant and animal cells
- How the space environment influences organisms: an astrobiological perspective and review
- Influence of spaceflight environment on biological systems for space green house
- ITRAQ-based proteomic analysis reveals changes in response to space flight treatment in rice (Oryza sativa L.)
- LUNAR PALACE 1 based space food and nutrition research
- Microalgae cultivation for space exploration: Assessing the potential for a new generation of waste to human life-support system for long duration space travel and planetary human habitation
- Molecular pharming to support human life on the moon, mars, and beyond
- Network Analysis of Local Gene Regulators in Arabidopsis thaliana under Spaceflight Stress
- Optimizing spectral quality with quantum dots to enhance crop yield in controlled environments
- Plant biology for space exploration – Building on the past, preparing for the future
- Plant Cultivation in Space
- Plant culture system as a water recycling device in space
- Plant responses to real and simulated microgravity
- Potential of a plant gas exchange mechanistic model to predict plant transpiration in Veggie on ISS
- Relevance of the Unfolded Protein Response to Spaceflight-Induced Transcriptional Reprogramming in Arabidopsis
- Root Tropisms: New Insights Leading the Growth Direction of the Hidden Half
- Shared Metabolic Remodeling Processes Characterize the Transcriptome of Arabidopsis thaliana within Various Suborbital Flight Environments
- Space Biology Research and Biosensor Technologies: Past, Present, and Future
- Space Biology: Results and Prospects (page 71)
- Survival of desert algae Chlorella exposed to Mars-like near space environment
- Synthetic biological circuit tested in spaceflight
- The microbiome of a greenhouse for ground demonstration of plant cultivation technologies in space
- The Radiation Biology Application: easy access to radiation measurements associated with plants and other organisms in space
- Understanding the Mechanisms of Gravity Resistance in Plants
- A New Era for Space Life Science: International Standards for Space Omics Processing
- Altered localisation of ZmPIN1a proteins in plasma membranes responsible for enhanced-polar auxin transport in etiolated maize seedlings under microgravity conditions in space
- An Oxygen Delivery Polymer Enhances Seed Germination in a Martian-like Environment
- Arabidopsis flowering induced by photoperiod under 3-D clinostat rotational simulated microgravity
- Biomass Production of the EDEN ISS Space Greenhouse in Antarctica During the 2018 Experiment Phase
- Challenges for a Sustainable Food Production System on Board of the International Space Station: A Technical Review
- Circumnutation and Growth of Inflorescence Stems of Arabidopsis thaliana in Response to Microgravity under Different Photoperiod Conditions
- Clinorotation Affects Induction of the Heat Shock Response in Arabidopsis thaliana Seedlings
- Clinostat Microgravity Impact On Root Morphology Of Selected Nutritional And Economic Crops
- Cold plasma to disinfect spaceflight grown produce
- Competitive Growth Assay of Mutagenized Chlamydomonas reinhardtii Compatible With the International Space Station Veggie Plant Growth Chamber
- Co-Optimization of Duckweed Biomass, Nutritional Quality & Input-Use Efficiency for Human Consumption in Space
- Culture-Based Environmental Microbiology Monitoring of Crop-Based Space Food Systems (veggie Monitoring) (poster)
- Design of a Module for Cultivation of Tuberous Plants in Microgravity: The ESA Project “Precursor of Food Production Unit” (PFPU)
- Developmental, Morphological and Physiological Traits in Plants Exposed for Five Generations to Chronic Low-Level Ionising Radiation
- Development of a photosynthesis measurement chamber under different airspeeds for applications in future space crop-production facilities
- EDEN ISS – greenhouse in Antarctica (page 54)
- Effects of Supplemental Far-Red Light on Leafy Green Crops for Space
- Enabling the Spaceflight Methylome: DNA Isolated from Plant Tissues Preserved in RNAlater® Is Suitable for Bisulfite PCR Assay of Genome Methylation
- GreenCube: microgreens cultivation and growth monitoring on-board a 3U CubeSat
- Growing plants in human space exploration enterprises
- Growth and Development of Ecotypes of Arabidopsis thaliana: Preliminary Experiments to Prepare for a Moon Lander Mission
- Growth and photosynthetic responses of Chinese cabbage (Brassica rapa L. cv. Tokyo Bekana) to continuously elevated carbon dioxide in a simulated Space Station “Veggie” crop-production environment
- Hardware Validation of the Advanced Plant Habitat on ISS: Canopy Photosynthesis in Reduced Gravity
- Influences of Gravitational Intensity on the Transcriptional Landscape of Arabidopsis thaliana
- Microbiological and Nutritional Analysis of Lettuce Crops Grown on the International Space Station
- Next-generation sequencing analysis of circulating micro-RNA expression in response to parabolic flight as a spaceflight analogue
- NDVI imaging within space exploration plant growth modules – A case study from EDEN ISS Antarctica
- Plant Pillow Preparation for the Veggie Plant Growth System on the International Space Station
- Plant responses to real and simulated microgravity.
- Plants culture in space environment for feeding food to the space travelers
- Plants in the space environment
- Proteomic analysis in different development stages on SP0 generation of rice seeds after space flight
- Rocket Science: The Effect of Spaceflight on Germination Physiology, Ageing, and Transcriptome of Eruca sativa Seeds
- Root Tropisms: Investigations on Earth and in Space to Unravel Plant Growth Direction
- Root Skewing-Associated Genes Impact the Spaceflight Response of Arabidopsis thaliana
- Seed and Vegetative Propagation of Plants in Microgravity
- Selecting for Chlamydomonas reinhardtii fitness in a liquid algal growth system compatible with the International Space Station Veggie plant growth chamber
- Space Horticulture
- Spaceflight induces novel regulatory responses in Arabidopsis seedling as revealed by combined proteomic and transcriptomic analyses
- Spaceflight Procedures and Operations Utilized During the Seedling Growth Experiments
- Test of Arabidopsis Space Transcriptome: A Discovery Environment to Explore Multiple Plant Biology Spaceflight Experiments
- The Importance of Earth Reference Controls in Spaceflight – Omics Experiments: Dissecting Transcriptional Responses of Nucleolin Mutants to Red Light Stimulation
- VEG-04: The Effects of Light Quality on Mizuna Mustard Growth, Nutritional Composition, and Organoleptic Acceptability for a Space Diet (presentation)
- A Multidisciplinary Modeling Approach of Plant Gas Exchange in Reduced Gravity Environments (presentation)
- Crop Readiness Level (CRL): A Scale to Track Progression of Crop Testing for Space
- Dwarf Tomato and Pepper Cultivars for Space Crops
- Effects of gravity direction on water transport in sweetpotato plants
- Epigenomics in an extraterrestrial environment: organ-specific alteration of DNA methylation and gene expression elicited by spaceflight in Arabidopsis thaliana
- How Does Water Delivery System Design Impact the Microbial Load of Salad Crops? (poster)
- HSFA2 Functions in the Physiological Adaptation of Undifferentiated Plant Cells to Spaceflight
- Mars Agriculture: Feeding Exploration and Enabling Earth Independence (presentation)
- Microbiological Profile of Multi-Species Leafy Greens Grown Simultaneously in the Veggie Vegetable Production Systems on ISS (presentation)
- Microgravity research in plants: A range of platforms and options allow research on plants in zero or low gravity that can yield important insights into plant physiology
- Modelling Leaf Temperatures during Parabolic Flights
- New Frontiers in Food Production Beyond LEO
- Overview of the Veggie System (presentation)
- NASA Activities in Controlled Environment Agriculture (presentation)
- Plant Factory and Space Development, “Space Farm”
- Potatoes as a Crop for Space Life Support: Effect of CO2, Irradiance, and Photoperiod on Leaf Photosynthesis and Stomatal Conductance
- Researching Plant Growth in Amended Martian Regolith Simulant, Photosynthetic Rates of Plants, Seed Surface Decontamination by Plasma Methods, New Crop Development, and Porous Concrete Media
- RNAseq Analysis of the Response of Arabidopsis thaliana to Fractional Gravity Under Blue-Light Stimulation During Spaceflight
- Spaceflight-induced alternative splicing during seedling development in Arabidopsis thaliana
- Survival of E. Coli in the Rhizosphere and Phyllosphere of Leafy Greens Grown in Controlled Environment Chambers Under International Space Station Conditions (poster)
- The Plant Health Monitoring System of the EDEN ISS Space Greenhouse in Antarctica During the 2018 Experiment Phase
- Troubleshooting Performance Failures of Chinese Cabbage for Veggie on the ISS
- Variation in the transcriptome of different ecotypes of Arabidopsis thaliana reveals signatures of oxidative stress in plant responses to spaceflight
- A member of the CONSTANS-Like protein family is a putative regulator of reactive oxygen species homeostasis and spaceflight physiological adaptation
- A Physical Modeling Approach for Higher Plant Growth in Reduced Gravity Environments
- Comparing RNA ‐Seq and microarray gene expression data in two zones of the Arabidopsis root apex relevant to spaceflight
- Development of a simple thermal method for measuring sap flow in plants for space experiments
- Draft Genome Sequences of Two Fusarium oxysporum Isolates Cultured from Infected Zinnia hybrida Plants Grown on the International Space Station
- Effects of Gravity on Stem Sap Flow and Water and Heat Exchange in the Leaves of Sweetpotato
- Genetic dissection of the Arabidopsis spaceflight transcriptome: Are some responses dispensable for the physiological adaptation of plants to spaceflight?
- Gravitropism in Higher Plants: Cellular Aspects
- Hardware Validation of the Advanced Plant Habitat on ISS: Canopy Photosynthesis in Reduced Gravity
- Interaction of polyamines, abscisic acid and proline under osmotic stress in the leaves of wheat plants
- Microgreen Growth In Microgravity Versus Earth: A UB-Student Spaceflight Experimental Project Mission 12
- Molecular Cytogenetics of Pisum sativum L. Grown under Spaceflight-Related Stress
- Parameters of Pepper Plants for Cultivation in Spaceflight Grown on Nutrient Medium with Nanoparticles
- Promoting Stem Sap Flow of Sweetpotatoes under Low Gravity with Forced Air Movements
- Simulated microgravity and the antagonistic influence of strigolactone on plant nutrient uptake in low nutrient conditions
- Single-base resolution methylome analysis shows epigenetic changes in Arabidopsis seedlings exposed to microgravity spaceflight conditions on board the SJ-10 recoverable satellite
- Status of the EDEN ISS greenhouse after on-site installation in Antarctica
- Testing New Concepts for Crop Cultivation in Space: Effects of Rooting Volume and Nitrogen Availability
- The role of plants and algae in near term life support systems
- Validation of the Advanced Plant Habitat Facility on ISS
- VEG-01: Veggie Hardware Validation Testing on the International Space Station
- Vegetable Production Systems Component Tests
- Agriculture for Space: People and Places Paving the Way
- Analyses of Arabidopsis seedlings grown in microgravity
- ARG1 Functions in the Physiological Adaptation of Undifferentiated Plant Cells to Spaceflight
- Comparative transcriptomics indicate changes in cell wall organization and stress response in seedlings during spaceflight
- Crop and Substrate Tests with Single Use Rooting” Pillows” for the VEGGIE Plant Growth Hardware (presentation)
- Evolution of Space-Based Plant Growth Technologies for Hybrid Life Support Systems
- Future Food Production System Development Pulling From Space Biology Crop Growth Testing in Veggie (presentation)
- Gardening for Therapeutic People-Plant Interactions during Long-Duration Space Missions
- Growing Beyond Earth; Students Exploring Plant Varieties for Future Space Exploration (presentation)
- Key Gaps for Enabling Plant Growth in Future Missions
- Modelling Higher Plants Gas Exchange in Reduced Gravity Environment
- NASA Plant Research for Life Support in Space (presentation)
- Nitrogen cycling in Bioregenerative Life Support Systems: Challenges for waste refinery and food production processes
- Persistence of plant hormone levels in rice shoots grown under microgravity conditions in space: its relationship to maintenance of shoot growth
- Plant Growth Optimization by Vegetable Production System in HI-SEAS Analog Habitat
- Plants and microgravity: Patterns of microgravity effects at the cellular and molecular levels
- RNAseq analysis reveals pathways and candidate genes associated with salinity tolerance in a spaceflight-induced wheat mutant
- Space Pomology: Dwarf Plums for Fresh Food Production (poster)
- Spectral Imaging within EDEN ISS for Plant Health and Productivity Assessment
- A novel blue-light phototropic response is revealed in roots of Arabidopsis thaliana in microgravity
- Algal research in space: history, current status, and future prospects
- ARADISH – Development of a Standardized Plant Growth Chamber for Experiments in Gravitational Biology Using Ground Based Facilities
- Choosing crops for cultivation in space
- Functional proteomic analysis revealed ground-base ion radiations cannot reflect biological effects of space radiations of rice
- GeneLab: Scientific Partnerships and an Open-Access Database to Maximize Usage of Omics Data from Space Biology Experiments
- Growing Plants for Supplemental Food Production on a Mars Fly-By Mission (presentation)
- Growth chambers on the International Space Station for large plants
- How to Establish a Bioregenerative Life Support System for Long-Term Crewed Missions to the Moon or Mars
- Microarray Data Analysis of Space Grown Arabidopsis Leaves for Genes Important in Vascular Patterning
- Modelling of the Nutrient Medium for Plants Cultivation in Spaceflight
- Modifications of Morphometrical and Physiological Parameters of Pepper Plants Grown on Artificial Nutrient Medium for Experiments in Spaceflight
- Not light or gravity but water guiding root to grow
- Plant’s response to space environment: a comprehensive review including mechanistic modelling for future space gardeners
- Proteomic and Physiological Studies Provide Insight into Photosynthetic Response of Rice (Oryza sativa L.) Seedlings to Microgravity
- Review and analysis of over 40 years of space plant growth systems
- Root Growth Patterns and Morphometric Change Based on the Growth Media
- Root restriction: A tool for improving volume utilization efficiency in bioregenerative life-support systems
- Space, the final frontier: A critical review of recent experiments performed in microgravity
- Spaceflight microgravity reduced photosynthetical electron transport and altered energy distribution in Euglena gracilis
- The effect of spaceflight on the gravity-sensing auxin gradient of roots: GFP reporter gene microscopy on orbit
- The Effects of Clinorotation on the Host Plant, Medicago truncatula, and Its Microbial Symbionts
- The gravity-induced re-localization of auxin efflux carrier CsPIN1 in cucumber seedlings: spaceflight experiments for immunohistochemical microscopy
- Using NASA’s GeneLab for VESGEN Systems Analysis of Vascular Phenotypes from Stress and Other Signaling Pathways (presentation)
- Water management in space – examples of hydration systems for cultivation in microgravity and future prospects
- What have we learned about phototropism from spaceflight experiments? Novel responses to light discovered during the Seedling Growth project on the ISS.
- 3D printed aeroponic tray nutrient delivery system for bioregenerative life support systems
- Deviations: Skewing, waving, and molecular biology from spaceflight and terrestrial observations
- Gravitropic response and circumnutation in pea (Pisum sativum) seedling roots
- Higher Plants in Space: Microgravity Perception, Response, and Adaptation
- MarsOASIS: A predeployable miniature Martian greenhouse for crop production research
- Molecular mechanisms of gravity perception and signal transduction in plants
- Selection of Leafy Green Vegetable Varieties for a Pick-and- Eat Diet Supplement on ISS
- Spaceflight Exploration in Plant Gravitational Biology
- Spaceflight Induces Specific Alterations in the Proteomes of Arabidopsis
- Study of the effects of the outer space environment on dormant forms of microorganisms, fungi and plants in the ‘Expose-R’ experiment
- Transcriptional response of Arabidopsis seedlings during spaceflight reveals peroxidase and cell wall remodeling genes associated with root hair development
- Veggie ISS Validation Test Results and Produce Consumption (presentation)
- Weaving Together Space Biology and the Human Research Program: Selecting Crops and Manipulating Plant Physiology to Produce High Quality Food for ISS Astronauts (presentation)
- Analysis of gene expression during parabolic flights reveals distinct early gravity responses in Arabidopsis roots
- Arabidopsis thaliana for spaceflight applications–preparing dormant biology for passive stowage and on orbit activation
- Biochemical, photosynthetic and productive parameters of Chinese cabbage grown under blue–red LED assembly designed for space agriculture
- Effects of the Extraterrestrial Environment on Plants: Recommendations for Future Space Experiments for the MELiSSA Higher Plant Compartment
- Exploration of plant growth and development using the European Modular Cultivation System facility on the International Space Station
- Flexible imaging payload for real-time fluorescent biological imaging in parabolic, suborbital and space analog environments
- Genome-wide expression analysis of reactive oxygen species gene network in Mizuna plants grown in long-term spaceflight
- Greenhouses and their humanizing synergies
- Large Plant Growth Chambers: Flying Soon on a Space Station near You! (presentation)
- Microgravity Induces Changes in Microsome-Associated Proteins of Arabidopsis Seedlings Grown on Board the International Space Station
- Microsome-associated proteome modifications of Arabidopsis seedlings grown on board the International Space Station reveal the possible effect on plants of space stresses other than microgravity
- Modeling gravity effects on water retention and gas transport characteristics in plant growth substrates
- Plant biology in reduced gravity on the Moon and Mars
- Plant Growth and Morphogenesis under Different Gravity Conditions: Relevance to Plant Life in Space
- Seed-to-Seed-to-Seed Growth and Development of Arabidopsis in Microgravity
- A method for preparing spaceflight RNAlater‐fixed Arabidopsis thaliana (Brassicaceae) tissue for scanning electron microscopy
- Adaptation response of Arabidopsis thaliana to random positioning
- Effect of salt stress on growth and physiology in amaranth and lettuce: Implications for bioregenerative life support system
- Fundamental Plant Biology Enabled by The Space Shuttle
- Gravitropism and mechanical signaling in plants
- Microgravity effects on different stages of higher plant life cycle and completion of the seed‐to‐seed cycle
- Multispectral Plant Health Imaging System for Space Biology and Hypobaric Plant Growth Studies
- Organ-specific remodeling of the Arabidopsis transcriptome in response to spaceflight
- Performance of Light Sources for Plants under Altered Gravity Conditions in Parabolic Airplane Flights
- Plant Atrium System for Food Production in NASA’s Deep Space Habitat Tests
- Plant mineral nutrition, gas exchange and photosynthesis in space: A review
- Preliminary Species And Media Selection For The Veggie Space Hardware
- Resistance of plants to gravitational force
- Spaceflight engages heat shock protein and other molecular chaperone genes in tissue culture cells of Arabidopsis thaliana
- The Creator of Astrobotany, Gavriil Adrianovich Tikhov.
- Assessment of genetic diversity and variation of Robinia pseudoacacia seeds induced by short-term spaceflight based on two molecular marker systems and morphological traits
- Bioregenerative Life Support Systems In The Space (BLSS): The Effects Of Radiation On Plants
- BRIC-17 Mapping Spaceflight-Induced Hypoxic Signaling and Response in Plants (presentation)
- Effects of Space Flight on the Chemical Constituents and Anti-Inflammatory Activity of Licorice (Glycyrrhiza uralensis Fisch)
- Ethylene reduces plant gas exchange and growth of lettuce grown from seed to harvest under hypobaric and ambient total pressure
- Genetic Variation of Maize Mutants by Spaceflight Based on SSR Analysis
- Media Effects on Lettuce Growth in “Pillows” Designed for the VEGGIE Spaceflight Growth Chamber
- Moon Plants as Model System for Life Support to Enable Human Exploration
- Morphological variation of mutant sunflowers(Helianthus annuus) induced by space flight and their genetic background detection by SSR primers
- NASA Space Biology Plant Research for 2010-2020 (presentation)
- Photosynthetic Characteristics of Sunflowers Mutated by Spaceflight at Full Flowering Stage
- Plant growth strategies are remodeled by spaceflight
- Plant Science in Reduced Gravity: Lessons Learned (presentation)
- Preparation for the Proof of Concept Flight of the Veggie Plant Growth Chamber
- Root waving and skewing – unexpectedly in micro-g
- Space plant biology research in Lithuania
- Spaceflight Transcriptomes: Unique Responses to a Novel Environment
- Sweet potato vine management for confined food production in a space life-support system
- Testing the bio-compatibility of aluminum PDFU BRIC hardware
- The Challenging Dream of Plants in Space
- The effect of plant cultivar, growth media, harvest method and post harvest treatment on the microbiology of edible crops
- An update on plant space biology
- Characterization of Commercially Available 50-W UFO LED Plant Lighting for Use in NASA’s Habitat Demonstration Unit (presentation)
- Greenhouse design integration benefits for extended spaceflight
- Gravity research on plants: use of single-cell experimental models
- Improvements in the re-flight of spaceflight experiments on plant tropisms
- Parabolic Flight Induces Changes in Gene Expression Patterns in Arabidopsis thaliana
- Plants survive rapid decompression: Implications for bioregenerative life support
- Results and Prospects of Studying the Gravitationally Sensitive Systems of Plants under Conditions of Space Flight
- The performance of KSC Fixation Tubes with RNALater for orbital experiments: A case study in ISS operations for molecular biology
- Biological Imaging Capability in the ABRS Facility on ISS (presentation)
- Conceptual design of a bioregenerative life support system containing crops and silkworms
- Cortical microtubules are responsible for gravity resistance in plants
- Genome-wide expression analysis of reactive oxygen species gene network in Mizuna plants grown in long-term spaceflight
- Gravity Resistance in Plants
- Ground testing of Arabidopsis preservation protocol for the microarray analysis to be used in the ISS EMCS Multigen-2 experiment
- Growth Performance and Root Transcriptome Remodeling of Arabidopsis in Response to Mars-Like Levels of Magnesium Sulfate
- Important Role of Air Convection for Plant Production in Space Farming
- Lunar Plant Biology—A Review of the Apollo Era
- Minimizing energy utilization for growing strawberries during long-duration space habitation
- Optimization of SSR-PCR system of spaceflight alfalfa and primers selection
- Physiological Disorders in Closed Environment-Grown Crops for Space Life Support
- Plant experiments with light-emitting diode module in Svet space greenhouse
- Temperature rise in plant reproductive organs under low gravity conditions
- Tomato seeds in space: NASA outreach and science education in the shuttle era
- Use of halophytic plants for recycling NaCl in human liquid waste in a bioregenerative life support system
- An Update on Plant Space Biology
- Canadian advanced life support capacities and future directions
- Effects of a Spaceflight Environment on Heritable Changes in Wheat Gene Expression
- Effects of Gravity on Transpiration of Plant Leaves
- From ROOTS to GRAVI-1: Twenty Five Years for Understanding How Plants Sense Gravity
- Gavriil Adrianovich Tikhov (1875-1960) a pioneer in astrobiology
- Gravity amplifies and microgravity decreases circumnutations in Arabidopsis thaliana stems: results from a space experiment
- Operations of a spaceflight experiment to investigate plant tropisms
- Phototropism and Gravitropism in Plants
- Responses of Arabidopsis to high levels of magnesium sulfate and of wheat to a spaceflight environment; consequences for (extra)terrestrial plant growth
- Roadmaps and Strategies for Crop Research for Bioregenerative Life Support Systems: A Compilation of Findings from NASA’s Advanced Life Support Meetings
- Sodium and potassium uptake of Ulva – Application of marine macro-algae for space agriculture
- The Advanced Biological Research System (ABRS): A Single Middeck Payload for Conducting Biological Experimentation on the International Space Station
- The cultivation of peas on board the International Space Station did not induce changes in their karyotypes
- Ultradian rhythms in Arabidopsis thaliana leaves in microgravity
- 3D information from 2D images recorded in the European Modular Cultivation System on the ISS
- A conceptual configuration of the lunar base bioregenerative life support system including soil-like substrate for growing plants
- Biological component of life support systems for a crew in long-duration space expeditions
- Crop candidates for the bioregenerative life support systems in China
- Deployment of a Prototype Plant GFP Imager at the Arthur Clarke Mars Greenhouse of the Haughton Mars Project
- Development of an improved ground-based prototype of space plant-growing facility
- Gene expression changes induced by space flight in single-cells of the fern Ceratopteris richardii
- Space-based research on plant tropisms
- Plant Productivity in Response to LED Lighting
- Auxin polar transport of etiolated Ageotropum pea epicotyls is not affected by gravistimulation: Relevance to automorphosis-like growth and development
- Biocompatibility studies in preparation for a spaceflight experiment on plant tropisms (TROPI)
- Plant-growth Lighting For Space Life Support: A Review
- Plants and somatic embryos in space: what have we learned?
- Thermal Situation of Plant Reproductive Organs Affected by Gravity and Light Intensity
- An Overview of Challenges in Modeling Heat and Mass Transfer for Living on Mars
- Evaluation of the effect of clinostat rotation on pollen germination and tube development as a tool for selection of plants in Space
- Exposure of Arabidopsis thaliana to Hypobaric Environments: Implications for Low-Pressure Bioregenerative Life Support Systems for Human Exploration Missions and Terraforming on Mars
- Fundamentals of Space Biology: Research on Cells, Animals, and Plants in Space
- Heat and Gas Exchanges between Plants and Atmosphere under Microgravity Conditions
- Mars plant biology: a workshop report and recommendations for plant biology in the exploration era
- Microgravity effects on leaf morphology, cell structure, carbon metabolism and mRNA expression of dwarf wheat
- Plant-growth lighting for space life support: A review
- Potato and Human Exploration of Space: Some Observations from NASA-Sponsored Controlled Environment Studies
- Process and Product: Recirculating Hydroponics and Bioactive Compounds in a Controlled Environment
- Spaceflight mutation breeding of China and its application in grass
- Strawberry Cultivar Analysis: Temperature and Pollination Studies
- The Biology Of Low Atmospheric Pressure — Implications For Exploration Mission Design And Advanced Life Support
- Up, down, and all around: How plants sense and respond to environmental stimuli
- Arabidopsis gene expression patterns are altered during spaceflight
- Development of a Reconfigurable LED Plant-growth Lighting System for Equivalent System Mass Reduction in an ALS
- ESA hardware for plant research on the International Space Station
- Gravitropic moss cells default to spiral growth on the clinostat and in microgravity during spaceflight
- Growth, development and genetic status of pea plants cultivated in space greenhouse “LADA” [LADA]
- How to activate a plant gravireceptor. Early mechanisms of gravity sensing studied in characean rhizoids during parabolic flights
- Influence of long term exposure to space flight on tomato seeds
- Effects of Root-Zone Volume, Vine Pruning, and Season on Yield, Proximate Composition, and Antioxidant Capacity of Sweetpotato (Ipomea batatas (Lam.) L. TU-82-155)
- Microgravity effects on thylakoid, single leaf, and whole canopy photosynthesis of dwarf wheat
- Microgravity does not alter plant stand gas exchange of wheat at moderate light levels and saturating CO2 concentration
- Nucleolar structure and proliferation activity of Arabidopsis root cells from seedlings germinated on the International Space Station
- Plant molecular biology in the space station era: Utilization of KSC fixation tubes with RNAlater
- Seed Storage Reserves and Glucosinolates in Brassica rapa L. Grown on the International Space Station
- Signal perception, transduction, and response in gravity resistance. Another graviresponse in plants
- Space life sciences: gravity-related effects on plants and spaceflight and man-made environments on biological systems
- Gravisensing in flax roots- results from STS-107 [Biotube]
- Brassica rapa plants adapted to microgravity with reduced photosystem I and its photochemical activity
- Ethylene Production throughout Growth and Development of Plants
- Ground-based studies of tropisms in hardware developed for the European Modular Cultivation System (EMCS)
- Hypobaric Biology: Arabidopsis Gene Expression at Low Atmospheric Pressure
- Mechanotransduction in root gravity sensing cells
- Microgravity affects the photosynthetic apparatus of Brassica rapa L.
- Minimizing Equivalent System Mass for ALS Crop Production
- Optimized LED Lighting Strategies for ALS-Related Crops CROPS
- The use of an electric field in increasing the resistance of plants to the action of unfavorable space flight factors
- Effects of static magnetic fields on plants [Biotube]
- Aquatic modules for bioregenerative life support systems: Developmental aspects based on the space flight results of the C.E.B.A.S. mini-module
- Crop production for advanced life support systems-observations from the Kennedy Space Center Breadboard Project
- Early development of fern gametophytes in microgravity
- Effects of CO2 concentration and light intensity on photosynthesis of a rootless submerged plant, Ceratophyllum demersum L., used for aquatic food production in bioregenerative life support systems
- Farming in space: Environmental and biophysical concerns
- Germination and Elongation of Flax in Microgravity
- Gene Expression in Space Biology Experiments
- Growing Plants for NASA — Challenges in Lunar and Martian Agriculture
- Growth and cell wall changes in rice roots during spaceflight
- Ionic signaling in plant gravity and touch responses
- Leaving Earth: Space Stations, Rival Superpowers, and the Quest for Interplanetary Travel
- Pigment composition and concentrations within the plant (Ceratophyllum demersum L.) component of the STS-89 C.E.B.A.S. Mini-Module spaceflight experiment
- Plant gravitropism. Unraveling the ups and downs of a complex process
- Plant growth during the greenhouse II experiment on the Mir orbital station
- Seed-to-seed growth of Arabidopsis thaliana on the International Space Station
- Spaceflight hardware for conducting plant growth experiments in space: The early years 1960–2000
- The effect of gravity on surface temperatures of plant leaves
- Touch modulates gravity sensing to regulate the growth of primary roots of Arabidopsis thaliana
- Canopy Photosynthesis And Transpiration In Micro-Gravity: Gas Exchange Measurements Aboard Mir
- Gene Expression in Space Biology Experiments
- Gravisensitivity of plant cells: Experimental data and hypotheses
- Gravitropism and development of wild‐type and starch‐deficient mutants of Arabidopsis during spaceflight
- Interaction of a plant cell with pathogens in conditions of changed gravity
- Molecular Aspects of Stress-Gene Regulation During Spaceflight
- Mutations in the Gravity Persistence Signal Loci in Arabidopsis Disrupt the Perception and/or Signal Transduction of Gravitropic Stimuli
- Performance of the Advanced ASTROCULTURE plant growth unit during ISS-6A /7A mission
- Plant growth using EMCS hardware on the ISS
- Plants in space
- Remote Sensing Of Gene Expression In Planta: Transgenic Plants As Monitors Of Exogenous Stress Perception In Extraterrestrial Environments
- Seeds in space
- Stimulation of elongation growth and cell wall loosening in rice coleoptiles under microgravity conditions in space
- Stimulation of elongation growth and xyloglucan breakdown in Arabidopsis hypocotyls under microgravity conditions in space
- The biophysical limitations in physiological transport and exchange in plants grown in microgravity
- Toward Martian Agriculture: Responses of Plants to Hypobaria
- An active role of the amyloplasts and nuclei of root statocytes in graviperception
- Cell-wall architecture and lignin composition of wheat developed in a microgravity environment
- Comparative floral development of Mir-grown and ethylene-treated, earth-grown Super Dwarf wheat
- Effect of artificial electric fields on plants grown under microgravity conditions
- Effects of spaceflight (STS-87) on tropisms and plastid positioning in protonemata of the moss Ceratodon purpureus
- Environmental control for plants on Earth and in space
- First Successful Space Seed-to-Seed Plant Growth Experiment in the SVET-2 Space Greenhouse in 1997
- Ground performance of air conditioning and water recycle system for a space plant box
- Induced compression wood formation in Douglas fir (Pseudotsuga menziesii) in microgravity
- Influence of different natural physical fields on biological processes
- Influence of nonuniform magnetic fields on orientation of plant seedlings in microgravity conditions
- Ontogeny of plants under various gravity condition
- Plant Growth and Human Life Support for Space Travel
- The effect of gravity on surface temperature and net photosynthetic rate of plant leaves
- The fungicidal and phytotoxic properties of benomyl and PPM in supplemented agar media supporting transgenic arabidopsis plants for a Space Shuttle flight experiment
- The Physics, Biology, and Environmental Ethics of Making Mars Habitable
- Transgene expression patterns indicate that spaceflight affects stress signal perception and transduction in Arabidopsis
- Transgenic Arabidopsis Adh/GFP Reporter Gene Produced for Studying Space Biology Telemetrically
- A ground-based comparison of nutrient delivery technologies originally developed for growing plants in the spaceflight environment
- Analysis of the Spaceflight Effects on Growth and Development of Super Dwarf Wheat Grown on the Space Station Mir
- Control of gravimorphogenesis by auxin: accumulation pattern of CS-IAA1 mRNA in cucumber seedlings grown in space and on the ground
- Development of a plant growth unit for growing plants over a long-term life cycle under microgravity conditions
- Effect of gravity on the output of humidity sensors with different measurement principles under constant humidity conditions
- Gravimorphogenesis of Cucurbitaceae plants: Development of peg cells and graviperception mechanism in cucumber seedlings
- Gravity independence of seed-to-seed cycling in Brassica rapa
- Influence of microgravity on ultrastructure and storage reserves in seeds of Brassica rapa L
- Mechanisms of the early phases of plant gravitropism
- STS-95 space experiment for plant growth and development
- Chapter 5: Growing Crops for Space Explorers on the Moon, Mars, or in Space
- Graviorientation in Protists and Plants
- Gravitropism of inflorescence stems in starch-deficient mutants of Arabidopsis
- Growth and development, and auxin polar transport in higher plants under microgravity conditions in space: BRIC-AUX on STS-95 space experiment
- Growth and Morphogenesis of Plant Seedlings in Space: STS-95 Space Shuttle Experiments
- Irradiance-dependent regulation of gravitropism by red light in protonemata of the moss Ceratodon purpureus
- Sensitivity of Plant Structure to Clinorotation Rates under Simulated Gravity Condition
- Solar Growth Chambers for NASA: Exploring Agriculture for Space Colonies
- A capillary-driven root module for plant growth in microgravity
- A recirculating hydroponic system for studying peanut (Arachis hypogaea L.)
- A strategy for research in space biology and medicine in the new century
- Blue Light Requirements For Crop Plants Used In Bioregenerative Life Support Systems
- Effects of microgravity on the susceptibility of soybean to Phytophthora sojae.
- Ground-based studies with super-dwarf wheat in preparation for space flight
- Plants And Somatic Embryos In Space: What Have We Learned?
- Six-month space greenhouse experiments — A step to creation of future biological life support systems
- The development of spaceflight experiments with Arabidopsis as a model system in gravitropism studies
- Biology of Plant Cells in Microgravity and under Clinostating
- Bios-3: Siberian Experiments in Bioregenerative Life Support
- Comparison Studies of Candidate Nutrient Delivery Systems for Plant Cultivation in Space
- Environmental Control for Plant Production in Space CELSS
- Future research in plant biology in space: summary of critical issues and recommendations of the workshop
- On-Orbit and Ground Performance of the PGBA Plant Growth Facility
- Peculiarities of biological processes under conditions of microgravity
- Plant reproduction during spaceflight: importance of the gaseous environment
- Plant Reproduction In Spaceflight Environments
- Seedborne Fungal Contamination: Consequences in Space-Grown Wheat
- Spaceflight exposure effects on transcription, activity, and localization of alcohol dehydrogenase in the roots of Arabidopsis thaliana
- Structure of potato tubers formed during spaceflight
- The Use of Different Biological Objects in Long-Term Space Flights
- Choosing plants to be grown in a controlled environment life support system (CELSS) based upon attractive vegetarian diets
- Cytochemical Localization of Reserves during Seed Development in Arabidopsis thaliana under Spaceflight Conditions
- Effects of Space Shuttle Mission STS-67 on Cell Structure in Lemna trisulca
- Enhanced root production in Haplopappus gracilis grown under spaceflight conditions
- Growth and Photosynthetic Responses of Wheat Plants Grown in Space
- Instrumentation for plant health and growth in space
- Modification of reproductive development in Arabidopsis thaliana under spaceflight conditions
- NASA’s biomass production chamber: A testbed for bioregenerative life support studies
- Perspectives of different type biological life support systems (BLSS) usage in space missions
- Regenerative Systems for Inhabited Spacecrafts
- Space stress and genome shock in developing plant cells
- Effect of crop development on biogenic emissions from plant populations grown in closed plant growth chambers
- Fundamental Biology Research During the NASA/Mir Science Program
- Gravity research on plants: use of single-cell experimental models
- Pollen and ovule development in Arabidopsis thaliana under spaceflight conditions
- Radiobiological experiments with plant seeds aboard the biosatellite Cosmos 1887
- Selection of Plants for Biotechnical Life-Support Systems
- Space Biology: Studies at Orbital Stations
- The possibility of using plants in life-support systems during long-term space flights
- Bioregenerative life-support systems
- Effects of altered gravity on plant cell processes: Results of recent space and clinostatic experiments
- “From seed-to-seed” experiment with wheat plants under space-flight conditions
- Limited period of graviresponsiveness in germinating spores of Ceratopteris richardii
- Peculiarities of moisture transfer in capillary-porous soil substitutes during space flight
- Performance and reliability of the NASA biomass production chamber
- Porous tube plant nutrient delivery system development: A device for nutrient delivery in microgravity
- Progress in plant research in space
- Seedling growth and development on space shuttle
- Starch metabolism in germinating soybean cotyledons is sensitive to clinorotation and centrifugation
- ‘SVET’ space greenhouse onboard experiment data received from ‘MIR’ station and future prospects
- The effect of 8 days of microgravity on regeneration of intact plants from protoplasts
- The Response to Gravity Is Correlated with the Number of Statoliths in Chara Rhizoids
- Tomato root growth, gravitropism, and lateral development: correlation with auxin transport.
- US experiments flown on the Soviet biosatellite Cosmos 2044. Volume 1: Mission description, experiments K-7-01 – K-7-15
- A Matrix-Based Porous Tube Water and Nutrient Delivery System
- Biological role of gravity: Hypotheses and results of experiments on “Cosmos” biosatellites
- Carbon dioxide and oxygen budgets of a plant cultural system in a CELSS — A case of cultivation of lettuce and turnips
- Chromosomes and plant cell division in space: Environmental conditions and experimental details
- Effects of Spaceflight on Growth and Cell Division in Higher Plants
- The first “space” vegetables have been grown in the “SVET” greenhouse by means of controlled environmental conditions
- The Last Place on Earth: Greenhouse Gardening at the South Pole
- Photosynthesis as a Basis for Life Support on Earth and in Space
- Development of a model for control of the NASA CELSS Crop Growth Research Chamber
- LifeSat: The General Biology Module
- Plant Biology Research on ‘LifeSat’
- Radiobiological experiments with plant seeds aboard the biosatellite Kosmos 1887
- Salad Machine: A Vegetable Production Unit for Long Duration Space Missions
- A method of variable spacing for controlled plant growth systems in spaceflight and terrestrial agriculture applications
- Genetic and physiological damage induced by cosmic radiation on dry plant seeds during space flight
- Utilization of potatoes for life support systems in space. I. Cultivar-photoperiod interactions
- Biological effects of weightlessness and clinostatic conditions registered in cells of root meristem and cap of higher plants
- Birth of space plant growing
- Changes in symbiotic and associative interrelations in a higher plant-bacterial system during space flight
- The first “space” vegetables have been grown in the “SVET” greenhouse using controlled environmental conditions
- Ultrastructure of meristem and root cap of pea seedlings under spaceflight conditions
- Gravitropism in Higher Plant Shoots: A Role for Ethylene
- Gravity as an obligatory factor in normal higher plant growth and development
- Interpreting plant responses to clinostating: I. Mechanical stresses and ethylene
- The role of weightlessness in the genetic damage from preflight gamma-irradiation of organisms in experiments aboard the Salyut 6 orbital station
- U.S. biological experiments in space