1.1 - Chapter 3 (The Growing Environment); NVWA

Question 1

Define and describe ‘solar radiation’

Question 2

Define and describe ‘latitude’

Question 3

Define and describe ‘altitude’

Question 4

Define and describe ‘diurnal range’

Question 5

Define and describe ‘aspect’

Question 6

Define and describe ‘stomata’

Question 7

Define and describe ‘evapotranspiration rate’

Question 8

Define and describe ‘nitrogen’

Question 9

Define and describe ‘potassium’

Question 10

Define and describe ‘calcium’

Question 11

Define and describe ‘phosphorous’

Question 12

Define and describe ‘magnesium’

Question 13

Define and describe ‘soil texture’

Question 14

Define and describe ‘soil structure’

Question 15

Vineyards facing west, which get afternoon sun, can experience what issues?

Answer 15

Vineyard may become too hot, particularly if it’s in a warm climate
Grapes face increased risk of sunburn
In certain climates, west-facing vineyards tend to endure damper, cooler weather conditions

Question 16

Chlorosis, yellowing of the foliage, is caused by what?

Answer 16

Deficiency of iron, nitrogen, magnesium, and/or sulfur

Question 17

Define and describe ‘Mean Temperature of the Warmest Month (MJT)’

Question 18

Define and describe ‘Growing Season Temperature (GST)’

Question 19

Define and describe ‘maritime’

Question 20

Define and describe ‘mediterranean’

Question 21

Define and describe ‘continental’

Question 22

Define and describe ‘cool climate’

Question 23

Define and describe ‘moderate climate’

Question 24

Define and describe ‘warm climate’

Question 25

Define and describe 'hot climate'

Question 26

Define and describe 'continentality'

Question 27

Define and describe 'weather'

Question 28

Chemical weed control (herbicides) can be organized into three groups:

Answer 28

Pre-emergence herbicides Contact herbicides Systemic herbicides

Question 29

Pre-emergence herbicides Where and when are they best applied? How are they absorbed? What do they inhibit?

Answer 29

Sprayed on surface soil before weeds are established Persist in the surface layers of the soil but are absorbed by the weeds' roots Inhibit the germination of young seedlings

Question 30

Contact herbicides to what are they applied? What do they destroy?

Answer 30

Sprayed onto established weeds Destroy the green parts of the weed that are sprayed, resulting in the death of the plant

Question 31

Systemic herbicides What are they sprayed onto? How are they absorbed? What do they destroy?

Answer 31

Sprayed onto established weeds Absorbed by the leaves and translocate in the sap Destroy the whole plant

Question 32

How can wind damage be mitigated?

Answer 32

Artificial Wind Breaks - mobile structures that provide instant protection; expensive and will need to be replaced Natural Wind Breaks - must be planted before vineyard is planted and established, e.g., trees with dense foliage. Trees can harbor pests and disease and may need pruning and other maintenance. For max effect, the crop should be within 10x the height of the break.

Question 33

What are three advantages of sloping vineyards?

Answer 33

Cold, dense air moves downhill, displacing warmer air to higher levels, which produce warm thermal layers on the slope, e.g. Côte d'Or Soils on slopes tend to be poorer, more coarsely textured, and better drained Slopes increase the angle at which solar radiation hits the Earth's surface, thereby increasing the intensity of heat and light which, in turn, helps the grapes achieve greater ripeness and concentration

Question 34

What are some disadvantages of sloping vineyards?

Answer 34

Increased risk of erosion Higher costs as it requires hand harvesting

Question 35

What are four advantages of vineyards being planted close to a body of water?

Answer 35

Body of water (1) reflects the sun's rays; (2) provides source for irrigation; (3) reduces risk of ground frost; and (4) can provide morning mists to encourage development of noble rot.

Question 36

List five major soil types

Answer 36

Limestone Chalk (lower density than limestone, so more free draining) Slate Granite Volcanic

Question 37

What is the difference between aspect and slope?

Answer 37

Slope is the angle of incline of the terrain. Aspect is the direction the slope faces (east, west, north, south) and relates to the degree of solar exposure.

Question 38

Even though grapevines are drought resistant, how much rain per year in cool and warm climates do they need?

Answer 38

Cool climates - 50 mm per year Warm climates - 750 mm per year

Question 39

High soil pH (limestone-rich) contributes to higher ___ in grapes. Low soil pH (acidic soils) can be a deterrent to viticulture. This can be counted by adding ___ to your soil.

Answer 39

Higher acidity (low pH) Add lime to your soil

Question 40

What do methoxypyrazines smell like?

Answer 40

Herbaceous / green bell pepper

Question 41

The breakdown of methoxypyrazines is hindered by (a) cool conditions, (b) warm conditions, or (c) soil drainage

Answer 41

Cool conditions

Question 42

What conditions can cause photosynthesis to slow down or stop?

Answer 42

Extreme heat, especially when combined with dry conditions; Water stress (the vine tries to protect itself by closing its stomata, reducing water vapor loss, but closed stomata can’t take in carbon dioxide which the vine needs for photosynthesis); Cold, cloudy conditions.

Question 43

Even though sunlight is needed for photosynthesis, sunlight doesn’t have to be 100% full, unhindered sunlight for photosynthesis to occur. It’s only when light levels fall below ___ that sunlight becomes a limiting factor in photosynthesis.

Answer 43

1/3

Question 44

What are the benefits of having direct sunlight on grapes?

Answer 44

Promotes development of anthocyanins; Reduces methoxypyrazines; Enhances accumulation of tannins pre-véraison; Enhances polymerization of tannins after véraison (decreasing bitterness); Increases levels of aroma precursors and aroma compounds; Increases metabolization rate of malic acid in grape respiration, leading to lower acidity levels.

Question 45

What are the natural factors that affect temperature and sunlight?

Answer 45

Latitude; Altitude; Slopes and Aspect; Proximity to water; Wind; Soil characteristics; Mist, fog + clouds.

Question 46

Regions at lower latitudes (nearer the Equator) receive (a) less intense or (b) more intense solar radiation than latitudes nearer the poles.

Answer 46

More intense Solar radiation at the Equator is more powerful because the radiation travels through a smaller section of atmosphere and hits the Earth’s surface at a larger angle (nearer perpendicular).

Question 47

The number of hours of solar radiation in low latitude regions are similar daylight hours throughout all seasons of the year. However, regions at high latitudes have ____ summer daylight hours and ____ winter daylight hours.

Answer 47

Longer summer daylight hours; Shorter winter daylight hours. Longer daylight hours during the summer benefits grapes grown at these cooler latitudes.

Question 48

Temperature falls by roughly ____ every 100 meter increase in altitude.

Answer 48

0.6°C (1.1°F) This is why high-elevation sites are advantageous in areas of low latitude. Conversely, high latitude areas that have relatively low elevation can make for sufficient ripening.

Question 49

Why do vineyards at high elevations generally have cooler nighttime temperatures than vineyards at low elevations?

Answer 49

The air is thinner at higher elevations, so it holds less moisture which means heat escapes quickly. At lower elevations, the air in the atmosphere holds more moisture which absorbs some of the energy the soil radiates out (that it had accumulated during the day), so some heat is retained at night.

Question 50

What is aspect?

Answer 50

the direction a vineyard faces

Question 51

Why does the importance of aspect and slope steepness increase at high latitudes?

Answer 51

Solar radiation hits the Earth at a low angle at high latitudes, so an aspect that faces the Equator optimizes heat and light; Slope increases the angle (nearer to perpendicular) at which solar radiation hits the Earth’s surface, thereby increasing intensity of heat and light. Conversely, in warm regions a vineyard whose aspect faces away from the Equator limits the amount of heat and light which can help the grapes retain freshness and acidity.

Question 52

What are some benefits to planting on slopes?

Answer 52

Shallow, poor soils; Good drainage; Provides shelter from bad weather; Provides frost protection.

Question 53

What are some cons to planting on slopes?

Answer 53

Soil erosion; Difficult or impossible to use machinery.

Question 54

What are some benefits for east-facing slopes?

Answer 54

East-facing slopes see morning sun, which is gentler than afternoon sun, and heats up the atmosphere slowly. This means: Air and soil temperatures are at their lowest in the morning and they’re slow to heat up, which extends the hours of vine growth and ripening (an advantage for cool climates); Morning dew dries out earlier in east-facing vineyards, reducing the spread of fungal disease.

Question 55

Describe how areas near bodies of water are able to remain relatively cool.

Answer 55

In the daytime, the water and air above a body of water remain cool, which lowers the average temperature in the surrounding/nearby area. Air directly above dry land heats up more quickly than air above water, and this warmer air rises. Cool air from above the water is sucked in towards the land replacing the warm air as it rises, resulting in cool, humid afternoon breezes.

Question 56

How does a body of water keep its surrounding area warmer at night?

Answer 56

Bodies of water release their warmth slowly (as opposed to land, which loses its warmth quickly without solar radiation), so at night the body of water is releasing the heat it acquired during the day.

Question 57

How can ocean currents influence wine growing areas?

Answer 57

Warm ocean currents like the Gulf Stream can help buoy a cooler or marginal climate, such as Bordeaux; Cool ocean currents like the California current can help cool down a region that sees high temperatures.

Question 58

Sunlight reflected off of bodies of water is most advantageous for: (a) cool climates, (b) warm climates, or (c) vineyards at low latitude

Answer 58

Cool climates

Question 59

What causes El Niño?

Answer 59

Warm water in the western Pacific Ocean that moves eastward along the Equator towards the Caribbean.

Question 60

What are the effects of El Niño on the east side of the Pacific?

Answer 60

High levels of rainfall and risk of hurricanes in South America and California due to a warmer eastern Pacific Ocean; Disrupted pollination and fruit set from higher rainfall; Increased vegetative growth (which can hinder ripening) due to excessive water availability; In Washington and Oregon, it brings warmer than average temperatures and drier conditions.

Question 61

What are the effects of El Niño on the west side of the Pacific (read: in Australia)?

Answer 61

Warmer temperatures and drought conditions, which can cause extreme vine stress and even vine damage.

Question 62

What causes La Niña?

Answer 62

A cooler-than-average eastern Pacific Ocean

Question 63

What are the effects of La Niña on the east (United States) and west (Australia) sides of the Pacific?

Answer 63

In Washington and Oregon, La Niña results in cooler, wetter conditions; In California and South America, it results in warmer, drier conditions; In Australia, it causes wetter and cooler conditions.

Question 64

What factors do winds and breezes influence?

Answer 64

They moderate temperature; Lower disease risk because they move humid air out from a vine’s canopy; Increase evapotranspiration (which may lead to water stress); Strong winds can damage vines and trellising, which can lead to yield reduction and higher labor/equipment costs.

Question 65

If you, as a grape grower, plant a row of trees near your vineyard to create a windbreak, what do you have to be mindful of?

Answer 65

Not to plant the trees so close to the vineyard that they compete with the vines for nutrients and water.

Question 66

Why is it desirable for cool-climate vineyard areas to have free-draining soils?

Answer 66

Free-draining soils warm up more quickly in the spring than damp soils, which encourages the breakdown of starch in the roots, which stimulates budburst and shoot growth; Warm soils also encourage root growth, which means the vine can absorb more water and nutrients.

Question 67

Fog is a dense form of mist. What are fog and mist made of, and how do they form?

Answer 67

They are made of tiny drops of water hanging in the air just above ground level. Both form when warmer water in the air is rapidly cooled, causing it to change from invisible gas to tiny visible water droplets, like when warmer air over water suddenly encounters the cooler surface of land.

Question 68

Vineyards that see a lot of mist or fog are at an increased risk of what?

Answer 68

Reduced photosynthesis from limited solar radiation; Fungal disease. (and if the vineyard sees dry, sunny afternoons following the morning mists, the vineyard can experience noble rot)

Question 69

What does a vine use water for (and need water for)?

Answer 69

Turgidity (so that it doesn’t wilt); Photosynthesis; Regulating its temperature; Water acts as a solvent for nutrients in the soil (so the vine can take up the nutrients through its roots); Water is used for all internal, vascular mechanisms of the vine.

Question 70

Describe transpiration.

Answer 70

The process of how water is absorbed by a vine’s roots, transported through the plant, and then out of its leaves in vapor form. The warmer the climate, the faster water evaporates from the leaves, which means the vine needs more water from the soil.

Question 71

What are stomata?

Answer 71

Stomata are pores on the underside of leaves that release water vapor out of the vine and allow carbon dioxide and oxygen to diffuse in and out of the leaves.

Question 72

What are the risks if a vine’s stomata partially or fully close?

Answer 72

Photosynthesis slows or stops because no water vapor is being expelled and no gases are coming in; This can cause the vine’s growth to be stunted or ripening to slow down; Potential leaf loss; Death in extreme cases.

Question 73

For the grapevine, why is plentiful water in the spring better than plentiful water in the summer?

Answer 73

In the spring, plentiful water encourages robust leaf growth and the establishment of a large, leafy canopy to support the growth of the vine and, later, the ripening of grapes. In the summer, plentiful water encourages vegetative growth and prolongs or delays ripening (which discourages development of anthocyanins, tannins and aroma compounds, but promotes methoxypyrazines). Too much water in summer can lead to a bushy, dense canopy which, in more humid areas, increases the risk of fungal disease due to poor ventilation. Too much water in summer can also dilute sugars or cause grapes to split (promoting rot).

Question 74

Air that is low in humidity can increase what in the vine and its grapes?

Answer 74

Evapotranspiration; Grape transpiration, which leads to…. Higher sugar accumulation in the grapes.

Question 75

Name some Pros and Cons for a vineyard that is located near a large body of water.

Answer 75

Pros Diurnal + seasonal temperatures are moderated; Ocean currents can increase or decrease a region’s average temperature; Breezes off the body of water increase air circulation, reducing likelihood of frost. Cons Proximity increases humidity and therefore risk of fungal disease

Question 76

What is evapotranspiration rate?

Answer 76

The amount of transpiration from a vine plus the evaporation of water from land (soil surface) to the atmosphere

Question 77

Name three natural factors that affect water availability.

Answer 77

Rainfall; Land + soil characteristics; Evapotranspiration

Question 78

What does the evapotranspiration rate depend on?

Answer 78

Temperature; Humidity; Wind

Question 79

What weather conditions lead to higher evapotranspiration rates?

Answer 79

Hot, dry, and windy weather conditions Vines in these conditions need more water, so irrigation may be a solution.

Question 80

What are the five most important nutrients a vine needs?

Answer 80

Nitrogen Phosphorus Potassium Calcium Magnesium

Question 81

What are six other nutrients that play a role in vine growth and reproduction?

Answer 81

Boron Copper Iron Manganese Sulfur Zinc

Question 82

What is nitrogen important for?

Answer 82

Vegetative growth Too much nitrogen makes the vine grow too many leaves and shoots, taking energy away from the grapes; Too little nitrogen stunts vigor, and leaves can turn yellow

Question 83

What is potassium important for?

Answer 83

Flow of water in the vine and overall vine growth Too high potassium can reduce yields and lead to poor ripening and higher pH in the grapes; Too little potassium can lead to low sugar accumulation in the grapes, reduced yields, and poor vine growth generally

Question 84

What is phosphorus important for?

Answer 84

Photosynthesis too little in the soil negatively affects root development, reduces general vine growth, and can lead to lower yields. Fun Fact: vines can struggle to absorb phosphorus in highly acidic (low pH) soils, too!

Question 85

What is calcium important for?

Answer 85

Photosynthesis and the structure of plant cells Too little calcium can negatively influence fruit set

Question 86

What is magnesium important for?

Answer 86

Photosynthesis (it’s found in chlorophyll) Too little magnesium can lead to reduced grape yields and poor ripening.

Question 87

Why does soil pH influence nutrient availability in the soil?

Answer 87

Different nutrients become more or less available at different pH levels.

Question 88

What can you add to soil to make it better at holding nutrients?

Answer 88

Humus – organic matter formed by the partial decomposition of plant material by soil microbes and earthworms. It has a spongey texture

Question 89

The most important physical elements of a soil are its ____ and ___

Answer 89

Texture and structure

Question 90

When someone refers to a soil’s texture, to what are they referring?

Answer 90

The proportions of the mineral particles of sand, silt and clay. Finely textured soil has high proportion of clay; clay particles are small and effective at holding water and nutrients. Loosely textured soil has high proportion of sand; sand particles are large, drain easily, and are poor at retaining nutrients. Between clay (small particles) and sand (large particles) are silt and loam (both have particles intermediate/moderate in size)

Question 91

When someone refers to a soil’s structure, to what are they referring?

Answer 91

How the mineral particles in the soil form aggregates (crumbs). The size, shape and stability of these crumbs are important for determining water drainage, root growth and soil workability. Finely structured soils have more clay = larger crumbs that are difficult to penetrate. Loosely structured soils have more sand = smaller crumbs that are easy to penetrate.

Question 92

A region’s climate is defined as:

Answer 92

The annual pattern of temperature, sunlight, rainfall, humidity, and wind averaged out over several years (~30 years).

Question 93

What are the five models used to classify climates?

Answer 93

GDD (Growing Degree Days, created by Amerine and Winkler, 1944); Huglin Index (1978); MJT (mean January/July temperature, 1980); GST (growing season temperature); Köppen’s classification (1900).

Question 94

How do you calculate GDD (growing degree days) in Celsius and Farenheit?

Answer 94

For Celsius, take the average mean temperature of a month in the growing season and subtract 10, then multiply this by the number of days in that month. For Farenheit, take the average mean temperature of a month in the growing season and subtract 50, then multiply this by the number of days in that month. Do this for each month in the growing season (April - October in the Northern Hemisphere, October - April in the Southern Hemisphere) and add together the totals to get the GDD.

Question 95

How many zones, or groups, are there for GDDs (also known as Winkler zones)?

Answer 95

Five Winkler zone 1, the lowest, is a cool climate. Winkler zone 5, the highest, is a very hot climate.

Question 96

Where is the Huglin Index widely used, and what other model is it similar to?

Answer 96

It’s the mean temperature of either July in the Northern Hemisphere or January in the Southern Hemisphere.

Question 97

How is GST (growing season temperature) calculated?

Answer 97

It’s the mean temperature of the whole growing season.

Question 98

What are the three broad terms used to categorize climates?

Answer 98

Maritime; Mediterranean; Continental.

Question 99

What are the four broad categories used to qualify climates?

Answer 99

Cool; Moderate; Warm; Hot.

Question 100

What is the average growing season temperature in a cool climate?

Answer 100

16.5ºC / 62ºF or below

Question 101

What is the average growing season temperature in a moderate climate?

Answer 101

16.5º - 18.5ºC (62–65°F)

Question 102

What is the average growing season temperature in a warm climate?

Answer 102

18.5º - 21ºC (65–70°F)

Question 103

What is the average growing season temperature in a hot climate?

Answer 103

21ºC (70ºF) or higher

Question 104

Describe a maritime climate.

Answer 104

Low annual differences between summer and winter temperatures; Rainfall evenly spread throughout the year. Example: Bordeaux

Question 105

Describe a mediterranean climate.

Answer 105

Low annual differences between summer and winter temperatures; Dry summers; Rainfall tends to fall in the winter months. Examples: Napa Valley and Coonawarra

Question 106

Describe a continental climate.

Answer 106

Extreme differences between summer and winter temperatures; Short summers; Cold winters; Temperatures change quickly in the spring and autumn. Examples: Burgundy and Alsace

Question 107

Vine growth, grape ripening, and subsequent wine style and quality can be influenced by variations in what 2 things?

Answer 107

Temperature and timing of rainfall

Question 108

Climates with even levels of rainfall throughout the year, such as maritime climates, are less likely to experience (a) water stress, (b) humidity, or (c) fungal disease

Answer 108

Water stress

Question 109

What is continentality?

Answer 109

Continentality is the difference of annual mean temperatures between the coldest month and the hottest month in a region. Regions with high continentality have big temperature differences between their coldest winter months and their hottest summer months, e.g. Burgundy. Regions with low continentality have less of a difference in temperatures throughout the year, e.g. Bordeaux.

Question 110

What is the difference between climate and weather?

Answer 110

Climate is what you expect; weather is what you get. Climate is a region’s expected, annual average of temperature, sunlight, warmth and rainfall over time; Weather is what happens day-to-day and what you see outside your window.

Question 111

What can weather, of either extreme, in a particular vintage influence in the vineyard and in the fruit?

Answer 111

Sugars; Acidity levels; Tannin ripeness; Aromas; Yields; Disease.

Question 112

Climate change broadly affects (and increases) what?

Answer 112

Evapotranspiration (thereby increasing water stress); Geographical distribution of rainfall; Greater weather variability; Greater frequency of extreme weather events.

Question 113

What are some of the viticultural side effects of warmer temperatures caused by climate change?

Answer 113

Vine cycle is faster; Rate of sugar accumulation increases; Acidity levels decrease faster; Rates of aroma and tannin development are NOT affected, so grape ripening can be problematic.