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Items: 1 to 50 of 68

1.

Developmental, nutritional and hormonal anomalies of weightlessness-grown wheat.

Carman JG, Hole P, Salisbury FB, Bingham GE.

Life Sci Space Res (Amst). 2015 Jul;6:59-68. doi: 10.1016/j.lssr.2015.07.005. Epub 2015 Jul 15.

2.

Induced abnormality in Mir- and Earth grown Super Dwarf wheat.

Bubenheim DL, Stieber J, Campbell WF, Salisbury FB, Levinski M, Sytchev V, Podolsky I, Chernova L, Pdolsky I.

Adv Space Res. 2003;31(1):229-34.

PMID:
12580182
3.

Plant growth during the Greenhouse II experiment on the Mir orbital station.

Salisbury FB, Campbell WF, Carman JG, Bingham GE, Bubenheim DL, Yendler B, Sytchev V, Levinskikh MA, Ivanova I, Chernova L, Podolsky I.

Adv Space Res. 2003;31(1):221-7.

PMID:
12580179
4.

Light, plants, and power for life support on Mars.

Salisbury FB, Dempster WF, Allen JP, Alling A, Bubenheim D, Nelson M, Silverstone S.

Life Support Biosph Sci. 2002;8(3-4):161-72.

PMID:
12481808
5.

Comparative floral development of Mir-grown and ethylene-treated, earth-grown Super Dwarf wheat.

Campbell WF, Salisbury FB, Bugbee B, Klassen S, Naegle E, Strickland DT, Bingham GE, Levinskikh M, Iljina GM, Veselova TD, Sytchev VN, Podolsky I, McManus WR, Bubenheim DL, Stieber J, Jahns G.

J Plant Physiol. 2001 Aug;158(8):1051-60.

PMID:
12033229
6.

Water stress, CO2 and photoperiod influence hormone levels in wheat.

Nan R, Carman JG, Salisbury FB.

J Plant Physiol. 2002 Mar;159(3):307-12.

PMID:
12030268
7.

Silica deposition on the leaves of Mir- and Earth-grown Super Dwarf wheat.

Campbell WF, Bubenheim DL, Salisbury FB, Bingham GE, McManus WR, Biesinger HD, Strickland DT, Levinskikh M, Sytchev VN, Podolsky I, Ivanova I, Chernova L, Jahns G.

Life Support Biosph Sci. 2000;7(3):263-72.

PMID:
11676441
8.

Analysis of the spaceflight effects on growth and development of Super Dwarf wheat grown on the Space Station Mir.

Levinskikh MA, Sychev VN, Derendyaeva TA, Signalova OB, Salisbury FB, Campbell WF, Bingham GE, Bubenheim DL, Jahns G.

J Plant Physiol. 2000 Apr;156(4):522-9.

PMID:
11543345
9.
10.

Canopy photosynthesis and transpiration in microgravity: gas exchange measurements aboard Mir.

Monje O, Bingham GE, Carman JG, Campbell WF, Salisbury FB, Eames BK, Sytchev V, Levinskikh MA, Podolsky I.

Adv Space Res. 2000;26(2):303-6.

PMID:
11543166
11.

Six-month space greenhouse experiments--a step to creation of future biological life support systems.

Ivanova TN, Kostov PT, Sapunova SM, Dandolov IW, Salisbury FB, Bingham GE, Sytchov VN, Levinskikh MA, Podolski IG, Bubenheim DB, Jahns G.

Acta Astronaut. 1998 Jan-Apr;42(1-8):11-23.

PMID:
11541596
12.

Studies on flower initiation of Super-Dwarf wheat under stress conditions simulating those on the Space Station, Mir.

Jiang L, Salisbury FB, Campbell WF, Carman JG, Nan R.

J Plant Physiol. 1998;152:323-7.

PMID:
11540591
13.

Ground-based studies with Super-Dwarf wheat in preparation for space flight.

Salisbury FB, Gillespie LS, Campbell WF, Hole P.

J Plant Physiol. 1998;152:315-22.

PMID:
11540590
14.

Bios-3: Siberian experiments in bioregenerative life support.

Salisbury FB, Gitelson JI, Lisovsky GM.

Bioscience. 1997 Oct;47(9):575-85.

PMID:
11540303
15.

Growing crops for space explorers on the moon, Mars, or in space.

Salisbury FB.

Adv Space Biol Med. 1999;7:131-62. Review.

PMID:
10660775
16.

[The influence of space flight factors on the growth and development of super dwarf wheat cultivated in greenhouse Svet].

Levinskikh MA, Sychev VN, Derendiaeva TA, Signalova OB, Salisbury FB, Campbell WF, Babenheim D.

Aviakosm Ekolog Med. 1999;33(2):37-41. Russian.

PMID:
10399554
17.

[Cyto-embryologic investigation of super dwarf wheat grown on board of the Mir orbital complex].

Veselova TD, Il'ina GM, Dzhaliova KhKh, Levinskikh MA, Sychev VN, Salisbury FB, Campbell WF.

Aviakosm Ekolog Med. 1999;33(2):30-7. Russian.

PMID:
10399553
18.

[Evaluation of super dwarf wheat growth and development in greenhouse "Svet" during cultivation in inhabited pressurized chamber].

Sychev VN, Levinskikh MA, Podol'skiĭ IG, Ivanova IE, Nefedova EL, Livanskaia OG, Derendiaeva TA, Mikhaĭlov NI, Salisbury FB, Bingham GE, Brown S.

Aviakosm Ekolog Med. 1998;32(2):43-8. Russian.

PMID:
9661775
19.

Growing Super-Dwarf wheat in Space Station Mir.

Salisbury FB.

Life Support Biosph Sci. 1997;4(3-4):155-66.

PMID:
11542291
20.
21.

The Spacelab-Mir-1 "Greenhouse-2" experiment.

Bingham GE, Salisbury FB, Campbell WF, Carman JG, Bubenheim DL, Yendler B, Sytchev VN, Berkovitch YuA, Levinskikh MA, Podolsky IG.

Adv Space Res. 1996;18(4-5):225-32.

PMID:
11538801
22.
23.

Growing super-dwarf wheat in Svet on Mir.

Salisbury FB, Bingham GE, Campbell WF, Carman JG, Bubenheim DL, Yendler B, Jahns G.

Life Support Biosph Sci. 1995 Summer;2(1):31-9.

PMID:
11538572
24.

Joseph I. Gitelson and the Bios-3 project.

Salisbury FB.

Life Support Biosph Sci. 1994 Summer;1(2):69-70.

PMID:
11538716
25.

What remains of the Cholodny-Went theory? A potential role for changing sensitivity to auxin.

Salisbury FB.

Plant Cell Environ. 1992 Sep;15(7):785-6. No abstract available.

PMID:
11541813
26.

Phase shift in leaf movements of xanthium attributed to age and rhythm patterns.

Koukkari WL, Hobbs LC, Salisbury FB.

Plant Physiol. 1992 Apr;98(4):1381-5.

27.

Some challenges in designing a lunar, Martian, or microgravity CELSS.

Salisbury FB.

Acta Astronaut. 1992;27:211-7. Review.

PMID:
11537566
28.

Lunar farming: achieving maximum yield for the exploration of space.

Salisbury FB.

HortScience. 1991;26(7):827-33. Review. No abstract available.

PMID:
11537565
29.

Biogenerative life-support system: farming on the moon.

Salisbury FB.

Acta Astronaut. 1991;23:263-70. Review.

PMID:
11537133
30.
31.
32.

Approaching the photosynthetic limits of crop productivity.

Salisbury FB.

Exec Intell Rev. 1988 Oct 7;15(40):20-2. No abstract available.

PMID:
11539767
33.

Radiation in controlled environments: influence of lamp type and filter material.

Bubenheim DL, Bugbee B, Salisbury FB.

J Am Soc Hortic Sci. 1988 May;113(3):468-74.

PMID:
11539082
34.

Plant productivity in controlled environments.

Salisbury FB, Bugbee B.

HortScience. 1988 Apr;23(2):293-9. Review.

PMID:
11537758
35.

Space farming in the 21st century.

Salisbury FB, Bugbee BG.

21st Century Sci Technol. 1988 Mar-Apr;1(1):32-41. Review. No abstract available.

PMID:
11539083
37.

Gravitropism in higher plant shoots. V. Changing sensitivity to auxin.

Salisbury FB, Gillespie L, Rorabaugh P.

Plant Physiol. 1988;88:1186-94.

38.

USU research helps agriculture enter the space age.

Salisbury FB.

Utah Sci. 1987 Fall;48(3):147-52.

PMID:
11540892
39.

Wheat production in controlled environments.

Salisbury FB, Bugbee B, Bubenheim D.

Adv Space Res. 1987;7(4):123-32.

PMID:
11537261
40.

Gravitropism in higher plant shoots. IV. Further studies on participation of ethylene.

Wheeler RM, White RG, Salisbury FB.

Plant Physiol. 1986;82:534-42.

41.

Evidences for changes in sensitivity to auxin and in cell-wall properties during gravitropic bending of dicot stems.

Salisbury FB, Rorabaugh PA, White R.

Physiologist. 1985 Dec;28(6 Suppl):S95-6. No abstract available.

PMID:
3834504
42.

Wheat production in the controlled environments of space.

Bugbee B, Salisbury FB.

Utah Sci. 1985 Winter;46(4):145-51.

PMID:
11540895
44.

Photoperiodism.

Salisbury FB.

Hortic Rev (Am Soc Hortic Sci). 1985;4:66-105. Review. No abstract available.

PMID:
11539689
45.
46.

Gravitropism in Higher Plant Shoots : II. Dimensional and Pressure Changes during Stem Bending.

Mueller WJ, Salisbury FB, Blotter PT.

Plant Physiol. 1984 Dec;76(4):993-9.

47.
48.
49.
50.

Gravitropism in Higher Plant Shoots: I. A ROLE FOR ETHYLENE.

Wheeler RM, Salisbury FB.

Plant Physiol. 1981 Apr;67(4):686-90.

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