Physiologia Plantarum

Cover image for Physiologia Plantarum

April 1976

Volume 36, Issue 4

Pages 297–407

  1. PHYCOCHROMES

    1. Top of page
    2. PHYCOCHROMES
    3. LIGHT-INDUCED ABSORPTION CHANGES IN COLEOPTILES
    4. SALINITY AND BEAN SEED GERMINATION
    5. MULTIPHASIC HEXONE UPTAKE IN CHLORELLA
    6. NITRATE AND NITRITE REDUCTASES FROM CHLAMYDOMONAS
    7. MOVEMENT AND EFFECT OF IAA APPLIED TO ROOT TIPS
    8. AFTER EFFECTS OF PARENT PLANT ENVIRONMENT IN BEET
    9. WATER DEFICIT AND FRUIT GROWTH
    10. SIMULATION OF OXYGEN RELATIONS OF ROOTS
    11. CYTOCHROME b559 HP AND GREENING
    12. EFFECTS OF AGITATED LIQUID MEDIUM
    13. KULTIVIERTE ZELLSUSPENSIONEN VON PISUM SATIVUM
    1. Photochromic Pigments from Blue-Green Algae: Phycochromes a, b, and c (pages 297–304)

      G. S. BJÖRN and L. O. BJÖRN

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1976.tb02246.x

  2. LIGHT-INDUCED ABSORPTION CHANGES IN COLEOPTILES

    1. Top of page
    2. PHYCOCHROMES
    3. LIGHT-INDUCED ABSORPTION CHANGES IN COLEOPTILES
    4. SALINITY AND BEAN SEED GERMINATION
    5. MULTIPHASIC HEXONE UPTAKE IN CHLORELLA
    6. NITRATE AND NITRITE REDUCTASES FROM CHLAMYDOMONAS
    7. MOVEMENT AND EFFECT OF IAA APPLIED TO ROOT TIPS
    8. AFTER EFFECTS OF PARENT PLANT ENVIRONMENT IN BEET
    9. WATER DEFICIT AND FRUIT GROWTH
    10. SIMULATION OF OXYGEN RELATIONS OF ROOTS
    11. CYTOCHROME b559 HP AND GREENING
    12. EFFECTS OF AGITATED LIQUID MEDIUM
    13. KULTIVIERTE ZELLSUSPENSIONEN VON PISUM SATIVUM
    1. Light-Induced Absorption Changes in Etiolated Coleoptiles (pages 305–309)

      S. WIDELL and L. O. BJÖRN

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1976.tb02247.x

  3. SALINITY AND BEAN SEED GERMINATION

    1. Top of page
    2. PHYCOCHROMES
    3. LIGHT-INDUCED ABSORPTION CHANGES IN COLEOPTILES
    4. SALINITY AND BEAN SEED GERMINATION
    5. MULTIPHASIC HEXONE UPTAKE IN CHLORELLA
    6. NITRATE AND NITRITE REDUCTASES FROM CHLAMYDOMONAS
    7. MOVEMENT AND EFFECT OF IAA APPLIED TO ROOT TIPS
    8. AFTER EFFECTS OF PARENT PLANT ENVIRONMENT IN BEET
    9. WATER DEFICIT AND FRUIT GROWTH
    10. SIMULATION OF OXYGEN RELATIONS OF ROOTS
    11. CYTOCHROME b559 HP AND GREENING
    12. EFFECTS OF AGITATED LIQUID MEDIUM
    13. KULTIVIERTE ZELLSUSPENSIONEN VON PISUM SATIVUM
    1. Effects of NaCl Salinity on Nitrogenous Compounds and Proteases during Germination of Vigna sinensis Seeds (pages 317–320)

      JOSÉ TARQUINIO PRISCO and GUSTAVO HITZSCHKY FERNANDES VIEIRA

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1976.tb02249.x

  4. MULTIPHASIC HEXONE UPTAKE IN CHLORELLA

    1. Top of page
    2. PHYCOCHROMES
    3. LIGHT-INDUCED ABSORPTION CHANGES IN COLEOPTILES
    4. SALINITY AND BEAN SEED GERMINATION
    5. MULTIPHASIC HEXONE UPTAKE IN CHLORELLA
    6. NITRATE AND NITRITE REDUCTASES FROM CHLAMYDOMONAS
    7. MOVEMENT AND EFFECT OF IAA APPLIED TO ROOT TIPS
    8. AFTER EFFECTS OF PARENT PLANT ENVIRONMENT IN BEET
    9. WATER DEFICIT AND FRUIT GROWTH
    10. SIMULATION OF OXYGEN RELATIONS OF ROOTS
    11. CYTOCHROME b559 HP AND GREENING
    12. EFFECTS OF AGITATED LIQUID MEDIUM
    13. KULTIVIERTE ZELLSUSPENSIONEN VON PISUM SATIVUM
    1. Multiphasic Hexose Uptake in Chlorella (pages 321–324)

      PER NISSEN

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1976.tb02250.x

  5. NITRATE AND NITRITE REDUCTASES FROM CHLAMYDOMONAS

    1. Top of page
    2. PHYCOCHROMES
    3. LIGHT-INDUCED ABSORPTION CHANGES IN COLEOPTILES
    4. SALINITY AND BEAN SEED GERMINATION
    5. MULTIPHASIC HEXONE UPTAKE IN CHLORELLA
    6. NITRATE AND NITRITE REDUCTASES FROM CHLAMYDOMONAS
    7. MOVEMENT AND EFFECT OF IAA APPLIED TO ROOT TIPS
    8. AFTER EFFECTS OF PARENT PLANT ENVIRONMENT IN BEET
    9. WATER DEFICIT AND FRUIT GROWTH
    10. SIMULATION OF OXYGEN RELATIONS OF ROOTS
    11. CYTOCHROME b559 HP AND GREENING
    12. EFFECTS OF AGITATED LIQUID MEDIUM
    13. KULTIVIERTE ZELLSUSPENSIONEN VON PISUM SATIVUM
    1. Further Characterization of Nitrate and Nitrite Reductases from Chlamydomonas reinhardii (pages 325–332)

      J. L. BAREA, J. M. MALDONADO and J. CÁRDENAS

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1976.tb02251.x

  6. MOVEMENT AND EFFECT OF IAA APPLIED TO ROOT TIPS

    1. Top of page
    2. PHYCOCHROMES
    3. LIGHT-INDUCED ABSORPTION CHANGES IN COLEOPTILES
    4. SALINITY AND BEAN SEED GERMINATION
    5. MULTIPHASIC HEXONE UPTAKE IN CHLORELLA
    6. NITRATE AND NITRITE REDUCTASES FROM CHLAMYDOMONAS
    7. MOVEMENT AND EFFECT OF IAA APPLIED TO ROOT TIPS
    8. AFTER EFFECTS OF PARENT PLANT ENVIRONMENT IN BEET
    9. WATER DEFICIT AND FRUIT GROWTH
    10. SIMULATION OF OXYGEN RELATIONS OF ROOTS
    11. CYTOCHROME b559 HP AND GREENING
    12. EFFECTS OF AGITATED LIQUID MEDIUM
    13. KULTIVIERTE ZELLSUSPENSIONEN VON PISUM SATIVUM
    1. The Movement and Physiological Effect of Indoleacetic Acid Following Point Applications to Root Tips of Zea mays (pages 333–337)

      PETER J. DAVIES, JOSEPH A. DORO and ANDREW W. TARBOX

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1976.tb02252.x

  7. AFTER EFFECTS OF PARENT PLANT ENVIRONMENT IN BEET

    1. Top of page
    2. PHYCOCHROMES
    3. LIGHT-INDUCED ABSORPTION CHANGES IN COLEOPTILES
    4. SALINITY AND BEAN SEED GERMINATION
    5. MULTIPHASIC HEXONE UPTAKE IN CHLORELLA
    6. NITRATE AND NITRITE REDUCTASES FROM CHLAMYDOMONAS
    7. MOVEMENT AND EFFECT OF IAA APPLIED TO ROOT TIPS
    8. AFTER EFFECTS OF PARENT PLANT ENVIRONMENT IN BEET
    9. WATER DEFICIT AND FRUIT GROWTH
    10. SIMULATION OF OXYGEN RELATIONS OF ROOTS
    11. CYTOCHROME b559 HP AND GREENING
    12. EFFECTS OF AGITATED LIQUID MEDIUM
    13. KULTIVIERTE ZELLSUSPENSIONEN VON PISUM SATIVUM
    1. Seed Germination and Bolting in Red Beet as Affected by Parent Plant Environment (pages 343–349)

      OLA M. HEIDE, OLAVI JUNTTILA and RAGNAR T. SAMUELSEN

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1976.tb02254.x

    1. Gibberellin and Inhibitor Content during Iris Bulb Development (pages 362–367)

      A. ALPI, N. CECCARELLI, F. TOGNONI and G. GREGORINI

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1976.tb02257.x

    2. Glumatic-Oxaloacetic Transaminase in Leaves of Phosphorus-Deficient Citrus Plants (pages 368–373)

      MIRIAM ACHITUV and A. BAR-AKIVA

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1976.tb02258.x

    3. Allelopathic Inhibitors in Seeds of Hevacleum laciniatum (pages 374–378)

      OLAVI JUNTTILA

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1976.tb02259.x

  8. WATER DEFICIT AND FRUIT GROWTH

    1. Top of page
    2. PHYCOCHROMES
    3. LIGHT-INDUCED ABSORPTION CHANGES IN COLEOPTILES
    4. SALINITY AND BEAN SEED GERMINATION
    5. MULTIPHASIC HEXONE UPTAKE IN CHLORELLA
    6. NITRATE AND NITRITE REDUCTASES FROM CHLAMYDOMONAS
    7. MOVEMENT AND EFFECT OF IAA APPLIED TO ROOT TIPS
    8. AFTER EFFECTS OF PARENT PLANT ENVIRONMENT IN BEET
    9. WATER DEFICIT AND FRUIT GROWTH
    10. SIMULATION OF OXYGEN RELATIONS OF ROOTS
    11. CYTOCHROME b559 HP AND GREENING
    12. EFFECTS OF AGITATED LIQUID MEDIUM
    13. KULTIVIERTE ZELLSUSPENSIONEN VON PISUM SATIVUM
    1. Effect of Water Deficit on the Growth of Squash Fruit (pages 379–382)

      S. COCUCCI, M. COCUCCI and C. POMA TRECCANI

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1976.tb02260.x

  9. SIMULATION OF OXYGEN RELATIONS OF ROOTS

    1. Top of page
    2. PHYCOCHROMES
    3. LIGHT-INDUCED ABSORPTION CHANGES IN COLEOPTILES
    4. SALINITY AND BEAN SEED GERMINATION
    5. MULTIPHASIC HEXONE UPTAKE IN CHLORELLA
    6. NITRATE AND NITRITE REDUCTASES FROM CHLAMYDOMONAS
    7. MOVEMENT AND EFFECT OF IAA APPLIED TO ROOT TIPS
    8. AFTER EFFECTS OF PARENT PLANT ENVIRONMENT IN BEET
    9. WATER DEFICIT AND FRUIT GROWTH
    10. SIMULATION OF OXYGEN RELATIONS OF ROOTS
    11. CYTOCHROME b559 HP AND GREENING
    12. EFFECTS OF AGITATED LIQUID MEDIUM
    13. KULTIVIERTE ZELLSUSPENSIONEN VON PISUM SATIVUM
  10. CYTOCHROME b559 HP AND GREENING

    1. Top of page
    2. PHYCOCHROMES
    3. LIGHT-INDUCED ABSORPTION CHANGES IN COLEOPTILES
    4. SALINITY AND BEAN SEED GERMINATION
    5. MULTIPHASIC HEXONE UPTAKE IN CHLORELLA
    6. NITRATE AND NITRITE REDUCTASES FROM CHLAMYDOMONAS
    7. MOVEMENT AND EFFECT OF IAA APPLIED TO ROOT TIPS
    8. AFTER EFFECTS OF PARENT PLANT ENVIRONMENT IN BEET
    9. WATER DEFICIT AND FRUIT GROWTH
    10. SIMULATION OF OXYGEN RELATIONS OF ROOTS
    11. CYTOCHROME b559 HP AND GREENING
    12. EFFECTS OF AGITATED LIQUID MEDIUM
    13. KULTIVIERTE ZELLSUSPENSIONEN VON PISUM SATIVUM
  11. EFFECTS OF AGITATED LIQUID MEDIUM

    1. Top of page
    2. PHYCOCHROMES
    3. LIGHT-INDUCED ABSORPTION CHANGES IN COLEOPTILES
    4. SALINITY AND BEAN SEED GERMINATION
    5. MULTIPHASIC HEXONE UPTAKE IN CHLORELLA
    6. NITRATE AND NITRITE REDUCTASES FROM CHLAMYDOMONAS
    7. MOVEMENT AND EFFECT OF IAA APPLIED TO ROOT TIPS
    8. AFTER EFFECTS OF PARENT PLANT ENVIRONMENT IN BEET
    9. WATER DEFICIT AND FRUIT GROWTH
    10. SIMULATION OF OXYGEN RELATIONS OF ROOTS
    11. CYTOCHROME b559 HP AND GREENING
    12. EFFECTS OF AGITATED LIQUID MEDIUM
    13. KULTIVIERTE ZELLSUSPENSIONEN VON PISUM SATIVUM
    1. The Effects of Agitated Liquid Medium on in vitro Cultures of Hevea brasiliensis (pages 399–402)

      H. M. WILSON, M. Z. EISA and S. W. B. IRWIN

      Version of Record online: 28 APR 2006 | DOI: 10.1111/j.1399-3054.1976.tb02264.x

  12. KULTIVIERTE ZELLSUSPENSIONEN VON PISUM SATIVUM

    1. Top of page
    2. PHYCOCHROMES
    3. LIGHT-INDUCED ABSORPTION CHANGES IN COLEOPTILES
    4. SALINITY AND BEAN SEED GERMINATION
    5. MULTIPHASIC HEXONE UPTAKE IN CHLORELLA
    6. NITRATE AND NITRITE REDUCTASES FROM CHLAMYDOMONAS
    7. MOVEMENT AND EFFECT OF IAA APPLIED TO ROOT TIPS
    8. AFTER EFFECTS OF PARENT PLANT ENVIRONMENT IN BEET
    9. WATER DEFICIT AND FRUIT GROWTH
    10. SIMULATION OF OXYGEN RELATIONS OF ROOTS
    11. CYTOCHROME b559 HP AND GREENING
    12. EFFECTS OF AGITATED LIQUID MEDIUM
    13. KULTIVIERTE ZELLSUSPENSIONEN VON PISUM SATIVUM

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