Agronomy Management of the natural resources used in food, feed and fiber production. “Making two...
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Transcript of Agronomy Management of the natural resources used in food, feed and fiber production. “Making two...
Agronomy
Management of the natural resources used in food, feed and fiber production.
“Making two blades of grass grow where one once grew.”
Crop Science: Principles & PracticeFifth Edition, by R. E. Mullen A copy has been requested to be placed
on two-hour Reserve, in Marston Science Library (MSL).
If you have a previous edition, Fourth or Third, the changes are not great – but you would be well-advised to go to MSL and compare and note changes.
Suggestions for success
Stay ahead of lecture topic in your reading Attend class – there will be information in
class not in text and there will be text info that the instructor will not emphasize
Review notes after class – clarify what is not understood (text, friend, instructor)
Study for quiz with one or two friends
Anatomy
Helps us understand plant behaviour Helps us make management decisions Helps us communicate with practioners
- We get better answers when we ask more precise questions
We will emphasize two families
Monocotyledonous plants – ‘grasses’- one seed leaf- all have “hypogeal” emergenceDicotyledonous plants – ‘broadleaf plants’
- legumes are dicots - two seed leaves - most are “epigeal,” but some are “hypogeal”
emergence
The Plant Cell – p. 1
Cell wall – to emphasize
Nucleus – genetic material (DNA), contents determined by both parents
Cytoplasm – inherited from female – only Ribosomes – protein manufacture +DNA Mitochondria – respiration site + DNA Chloroplast – photosynthesis site + DNA
Monocot Seed Anatomy (corn) -3
Monocot Seed Anatomy (wheat) -3
Monocot Seed Highlights - I
Caryopsis (pericarp is fused ovary tissue) Embryo tissue separate from storage
tissue – living tissue stains red with tetrazolium
Wheat, rye and triticale contain “gluten”
Monocot Seed Highlights -II
Big three = rice, wheat, corn (cereal) Cereal = “grass grown for edible seed” Globally, 70+% human diet are cereals Cereals store well, retain germination well Cereal protein content – 7-17%
Cereal Germination/Emergence -5
Germ./Emerge. Highlights, corn
Mesocoty (first internode) pushes coleoptile to surface
Sunlight hitting coleoptile is the stimulus for mesocotyl to stop growing, coleoptile to split, secondary roots (coronal, adventitious) develop at that point
Primary root system – radicle and seminal roots survive about three weeks
Cereal Germ./Emerg. II - 7
Legume Seed Anatomy
Legume Seed Highlights
Dicots – two cotyledons True ‘seed’ as the pod is the ovary and the
seeds are the ovules Note the exposed position of the embryo
axis – susceptible to mechanical damage Note also that if cotyledons split, the
epicotyl goes with one or the other
Legume (epigeal) Germ/Emerg -9
Legume Emerg. (hypogeal) Highlights Observe the difference vs the cereal
emergence – the legume pushes/pulls a huge mass to surface – planting depth is more critical
Note the helpful definition of two terms:“epi” – above“hypo” - below
Legume (hypogeal) Germ/Emerg -9
Legume Seedling Highlights
Leaves are “netted-veined” in contrast to grasses which are “parallel-veined”
Most legume leaves are “compound” – that is they have two or more leaflets/leaf
In soybeans, the first leaf is “unifoliolate,” subsequent leaves are “trifoliolate” . . . (careful with spelling, as similar spellings have very different meanings)
Leaves– comparing parallel-veined leaves w/ netted-veined leaves -11
Practical leaf implications
Herbicides often are broadly categorized as broadleaf herbicides or “grassy” weed herbicides
The leaf is the first place we look for nutrient deficiency symptoms – where on the leaf is the deficiency located? Where on the plant is the deficient leaf located? More on this later.
Dicot leaf, view a -12
Dicot leaf, view b - 12
Monocot leaf -12
Monocot leaf comments
Note the “bulliform cells” – when moisture deficient, these cells go flacid and the leaf rolls – a self preservation mechanism that reduces moisture loss
Water and mineral nutrients travel in xylem Photosynthates travel in phloem – living cells. Foliar
applied herbicides also travel in phloem – which is one reason why rate of application is important (if herbicide kills phloem cells, will not be translocated to other plant organs and weed survives)
Leaf comments
Leaves of some species have additional features – wax (moisture retention) or pubescence (depending on pest, trichomes may provide some resistance (e.g., leaf hoppers) or may contribute to susceptibility (e.g., spidermites)
Leaves w/ no pubescence = glabrous
Stomata -13
Stomata comments
Stomata vary in density w/ plant species and from top to bottom of leaves, depending on plant species
Stomata open when sufficient moisture present in guard cells to cause to swell (inside of guard cell wall thicker than outside and causes cell to curve when turgid), and with oxygen concentration in cells
Not all gas (O2, CO2, H20) is exchanged thru stomata – some passes thru epidermis
Parts of Grass Leaf -14
Grass leaf parts comments
Leaf anatomy is important in species identification – presence, shape and type of ligule, auricles, pubescence at the collar region help identify species.
Tillers are like stem clones, multiples arising from one seed or crown area – highly desirable in small grains.
Stolons and rhizomes contribute to spread – and in weeds, rhizomes make control more difficult
Parts of Legume Leaf -15
Stem Anatomy, longitudinal -16
Dicot stem, cross section -16
Monocot stem -17
Vascular bundle - 17
Modified Stems -18
Plant Roots -19
Root Systems -20
Root System comments
Type affects tolerance to moisture stress periods – tap-rooted species generally root deeper, and if irrigated, need irrigation less often, but application amount is greater
There are soil-building and carbon sequestration differences – fibrous root systems deposit and distribute carbon more effectively – think of the rich prairie soils
Grass & Legume Inflorescence -20
Moving = View, Slide Sorter,
Then click and drag.