- -   AGRICULTURE CORE CURRICULUM  - -


(CLF7000)  Advanced Core Cluster:  PLANT AND SOIL SCIENCE

  (CLF7200)  Unit Title:  PLANT PHYSIOLOGY AND GROWTH

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  (CLF7205)   Topic:  SEED GERMINATION        Time       Taught in Year(s) 
                                              4 hours       3 and 4  
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         Topic Objectives:  Upon completion of this lesson the student will 
         be able to:

         Learning Outcome #:

           (C-13)  -  List the requirements necessary for seed germination 
                      and indicate factors that might decrease germination 
                      rates (e.g., heat, water, oxygen, seed dormancy, salt 
                      and disease).

         Special Materials and Equipment: Seeds of lettuce, celery and 
                      grass, petri plates, blotters, jars, Captan 
                      (fungicide), and pasteurized and untreated soil.

         References:  Hartman, H., Flocker, W., and Kofranek, A. PLANT
                        SCIENCE, GROWTH DEVELOPMENT AND UTILIZATION OF 
                        CULTIVATED PLANTS.

         Evaluation:  Quiz by instructor

TOPIC PRESENTATION:   SEED GERMINATION

A.  Germination versus dormancy

    1.  A mature seed contains an inactive, non-growing embryo that may be
        either dormant or merely quiescent.

    2.  When the embryo resumes its growth and breaks through the seed coat,
        the seed is said to germinate.

    3.  If the embryo is merely quiescent, the seed will germinate as soon 
        as it receives adequate water, warmth, and oxygen.

    4.  If the embryo is truly dormant, additional signals are needed to
        relieve dormancy before the embryo can resume its growth.

B.  Several kinds of signals control dormancy.

    1.  Some dormant embryos are immature, and must undergo further 
        development before they can resume growth.  Here, time is the 
        critical requirement.

    2.  Other seeds need influences from the environment to break out of 
        dormancy.

        a.  These requirements cause germination to occur when conditions 
            are best for the survival of the young plant.

        b.  Some seeds cannot germinate until the seed coat is weakened.

            1)  The seed coat may prevent water or oxygen from entering.

            2)  In nature, such seeds must be carried by running water, 
                leading to abrasion of the seed coat.  This assures that 
                water will be present for growth.

            3)  The seed coats can be artificially weakened by treatments 
                with strong acid or alkali, or by scraping the seeds with 
                sandpaper, etc.  These treatments are called scarification.

        c.  Some seeds contain inhibitors that prevent germination.

            1)  The hormone abscisic acid is one such inhibitor.  It can 
                also be artificially added to prolong dormancy.

            2)  The inhibitor content may slowly decline with age, or it may 
                be washed out by exposure to running water.  In nature, a 
                need for water to remove inhibitors assures that adequate 
                water for growth will be present.

    3.  Some seeds require light or darkness before they will germinate.

        a.  Small wild seeds usually require light.  This delays germination 
            until competing plants are removed.

            1)  Weeds persist in cultivated fields because removal of
                existing weeds pulls dormant seeds to the surface where they 
                get the light needed for germination.

            2)  For this reason, weeds should be removed before they make
                seeds.

                a)  Some large seeds are inhibited by light.  This delays 
                    germination until the seeds are buried, increasing the 
                    chance that roots will reach water before the shoots 
                    reach dry air.

    4.  Some seeds require prolonged chilling before they will germinate.

        a.  Usually several weeks at temperatures just above freezing are 
            needed.  In nurseries, such treatments are called stratification
            because the seeds are spread between layers (strata) of moist 
            sand before being chilled.

        b.  This requirement assures that seeds released in autumn will
            not germinate until winter is past.


C.  Agricultural practices influence germination and seedling growth.

    1.  Remember, that a seed first must be viable (alive) before it
        will germinate.

        a.  When selecting seed for planting a crop be sure that it is pure 
            of the variety you have chosen.

        b.  It should have a high germination percent for that variety.

        c.  Seeds should be large and plump.

        d.  There should be absolutely no noxious or objectionable weed 
            seeds present.

        e.  Seed should be of uniform size and shape.

        f.  There should be no insects, insect eggs, or pathogens on the 
            seed.

        g.  It should be free of chaff, rocks, or other foreign material.

    2.  Certain environmental conditions are required for seed germination 
        and successful seedling growth.

        a.  Adequate moisture is one of those requirements.

            1)  Water is essential to activate the processes in the seed 
                that result in embryo growth.

            2)  Most seeds germinate satisfactory at moisture levels between 
                field capacity and permanent wilting percent.

        b.  Temperature can also influence the rate and percentage of 
            germination.

            1)  Seeds of cool season crops germinate best at temperatures 
                between 32 and 50 degrees Fahrenheit. (Examples:  celery,
                lettuce, peas.)

            2)  Warm season crops germinate best at temperatures between 59 
                to 79 degrees Fahrenheit.

        c.  Another requirement for germination is aeration (oxygen).

            1)  Respiration rates for germinating seeds is very high,
                so require adequate oxygen.

            2)  The germination percent of most seeds will be retarded if 
                the oxygen percent goes below 20 percent.  (Normal air is 20 
                percent oxygen.)

            3)  Seedbeds that are overwatered or poorly drained will cause 
                the oxygen supply to become limited, so the germination 
                percent will diminish.

        d.  Light is also essential for the germination of some kinds of 
            seeds.

            1)  Lettuce, celery, and some grasses have this requirement.

            2)  It is necessary to plant these seeds very shallow for proper 
                germination.

        e.  An environment free of pathogenic organisms is also a 
            requirement for good germination.

            1)  Several different fungi can cause a disease called "damping 
                off."

            2)  This is a situation when seedlings die during or shortly 
                after germination.

            3)  The best methods of control are fumigation or pasteurization 
                of the germination media.

            4)  Surface treatment of seeds with fungicides before planting 
                and good sanitation practices will help minimize problems 
                with fungi.

        f.  Salts in the germination media, irrigation water, or fertilizer 
            can injure or kill seedlings as they germinate.

            1)  This problem can be prevented by using soil mixtures and 
                water low in salts.

            2)  Irrigating less frequently but more copiously will also help 
                leach the salts away from the seedlings.

 
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          ACTIVITY:
  
          1.  Provide samples of several different seeds.

          2.  Assign groups of students to the following experiments.

              a.  Germinate seeds with varying amounts of
                  water in petri plates.  Use blotters or
                  shredded paper towels for the media.

              b.  Germinate seeds in petri plates.  Place 
                  under varying temperatures.  (Examples -
                  one in room, one in refrigerator,
                  one outside.)

              c.  Germinate seeds in an airtight container.
                  Add limited amounts of water to a 
                  blotter at bottom of container before
                  adding seeds and sealing.

              d.  Germinate (lettuce, celery, or grass) 
                  seeds in varying amounts of light.

              e.  Germinate seeds in:

                  1)  Media that has been pasteurized.
                  2)  Media that has been treated with 
                      fungicide (Captan works well)
                  3)  Untreated media (Garden Soil)

          3.  Have students observe each others experiments discuss,
              and record results.
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7/20/90 sg


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