Term
| Explain the PAR portion of the yield equation |
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Definition
Photosynthetically Active Radiation
MJm2d-1
Only accounts for visible radiation
Can change PAR by changing location and planting date |
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Term
| Explain the alpha c component of the yield equation |
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Definition
Caopy absorption of radiation
Fraction of light that is actually absorbed by the plant
Shows the relationship between leaf position and radiation |
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Term
| Explain the RUE component of the yield equation |
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Definition
Radiation Use Efficiency
g per MJ1
How efficiently solar radiation is converted into biomass
Impacted by temperature (how much biomass is made per unit of radiation absorbed) |
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Term
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Definition
Leaf Area Index
This is the single sided leaf area per unit ground area
As more leaf area is accumulated, each leaf intercepts less |
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Term
| What is the Central Dogma of Crop Physiology? |
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Definition
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Term
| Explain what HI is as part of the yield equation |
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Definition
Harvest Index
proportion of total crop dry matter that is allocated to the harvested portion of the crop |
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Term
| What is the major determinant of total season crop growth? |
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Definition
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Term
| What does PAR absorbed by the canopy depend on? |
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Definition
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Term
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Definition
| Any factor that effects crop growth but doesn't alter radiation absorption |
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Term
| Why should seasonal values of PAR not be used? |
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Definition
| Better to use PAR values integrated over time |
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Term
| How does variety maturity impact the yield equation? |
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Definition
Short Season Variety
- if you choose a short variety in a long season, there will be early maturity
- Thus, total time for dry matter accumulation (PAR, ac and RUE) is less
Long Variety in Early Frost
- If frost occurs before the grain filling stage, HI will be lower than normal |
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Term
| How does planting density impact the yield equation? |
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Definition
Low Planting Density
- reduces plant stand, hence PAR is limited
- Not a lot of leaf area will develop, so alpha c is limited too
High Planting Density
- HI will be low
- Too much vegetative growth and not enough resources used to establish seed and grain filling
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Term
| How does Drought Stress impact the yield equation? |
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Definition
Reduces rate of leaf area expansion (alpha c decreaed)
Stomatal closure, so CO2 availability is limited (photosynthetic rate is dropped, so RUE is impacted) |
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Term
| Explain the shape of the Seed Imbition curve |
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Definition
1. Rapid water uptake
- Most physiological transitions occur
- See cell electrolyte loss because membrane is "leaky"
2. Lag Phase
- Rate of water uptake has slowed down
3. Final phase
- Seed axis becomes hydrated again to lead to germination |
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Term
| Uptake of water is a _____ process |
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Definition
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Term
| What kind of anaerobic stress inhibits seed germination? |
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Definition
| Drought, as oxygen is needed for seed germination |
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Term
| What is the difference between Hypogeal and Epigeal emergers? |
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Definition
Hypogeal
- cotyledons are below ground
- All monocots
Epigeal
- cotyledons are above ground
- too much mechanical impedence can be bad (hypocotyl hook has to pull)
- Not all dicots |
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Term
| Imbition chilling impacts what? |
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Definition
| Phase 1 of seed imbition graph. Water doesn't get taken up as well. |
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Term
| Why is proper soil temperture important? |
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Definition
| Important for strong seed emergence (enzymatic activity is better in warm soil conditions, which leads to better germination) |
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Term
| What is cold stratification? |
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Definition
| Exposing seeds to cold temperatures to break seed dormancy |
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Term
| Is oxygen required for seed germination? |
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Definition
Yes
rate of respiration increases dramatically. It is needed to mobilize energy reserves from the seed
High CO2 levels inhibit seed germination |
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Term
| Does light exposure impact germination? |
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Definition
Some yes.
Seeds that are POSITIVELY PHOTOBLASTIC need light expsure or else they will not germinate |
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Term
| Why is Phytochrome important? |
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Definition
It is a pigment that changes red light to far-red
far red to red over night, but can be changed back to red quickly if a flash of far red goes off
far red promotes germination
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Term
| What transition occurs after germination? |
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Definition
Heterotrophic growth (energy is suppled by seed storage reserves) to autotrophic growth (energy provided by photosynthesis)
During grain filling, energy reserves are stored in endosperm. As the seed dries, these reserves run out
Critical period because once seed reserves are depleted, total seedling energy reserves can get very low if leaves cannot develop for photosynthesis |
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Term
| What if the vascular system is poorly developed between H to A transition? |
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Definition
| if water and nutrients cannot be moved easily through the plant, seedling's ability to respond to stress is impacted |
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Term
| Explain the 3 stages of the Crop Growth Curve |
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Definition
1. Exponential Growth
- Accelerated Vegetative growth
- Photosynthetic machinery developed here
- Leaf area is expanding (but law of diminishing returns)
- Slow initially because no leaf growth
2. Linear Growth
- Rate of dry matter accumulation is constant
3. Senescence
- Photosyntheic capacity of leaves declines (RUE decreasing) because no new leaves are made
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Term
| Why are okra leaves advantageous? |
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Definition
Finger-like leaves
Makes light more diffused (evenly spread throughout the canopy)
Photosynthesis is higher |
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Term
| What is the slope of the Crop Growth Rate Curve? |
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Definition
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Term
| What happens between phase 1 and 2 of the CGC? |
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Definition
| Enough leaf area has developed to maximize interception |
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Term
| Why is there a levelling off phase in the CGC? |
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Definition
RUE is decreasing
Canopy uses the intercepted light less efficiently because upper leaves are losing photosynthetic capacity |
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