Heat

Question 1

What is the main sources of both heat and sunlight?

Answer 1

Solar radiation

Question 2

What temperature ensures the dormancy of the vine?

Answer 2

Cold temps (under 10C/50F)

Question 3

What temperature can cause winter freeze and vine damage?

Answer 3

Extremely cold (around -20C/-4F)

Question 4

What temps stimulate budburst? What is needed for successful and uniform budburst?

Answer 4

• temps above 10C
• significant rise in temperatures at this time

Question 5

What is the optimum temperature range for photosynthesis?

Answer 5

18-33C (64-91F)

Question 6

What temperatures promote successful, uniform ripening?

Answer 6

Above 17C/63F

Question 6

What temperatures promote successful, uniform flowering?

Answer 6

Above 17C/63F

Question 7

What temperature range promotes successful, uniform fruit set?

Answer 7

26-32C/79-90F

Question 7

How do temperatures during flowering and fruit set affect the next growing season?

Answer 7

Warm temps promote increased bud fruitfulness (above 25C/77F is best) in the next year, and therefore affects yields in the next growing season

Question 8

Why is sugar accumulation in the grapes generally faster at warm temperatures?

Answer 8

• warm temperatures mean optimum rates of photosynthesis producing sugars
• increased grape transpiration promotes the movement of sugar into the grape

Question 9

What temps can lead to a rapid loss of acidity in the final month of ripening?

Answer 9

Mean temps above 21C (70F)

Question 10

What temps can reduce acid loss to the point that acidity levels in the must are too high?

Answer 10

Mean temps below 15 C (59F)

Question 11

Generally, what aroma/flavors are associated with grapes grown in warmer climates? Cooler climates?

Answer 11

• warmer climates: riper aromas/flavors
• cooler climates: hinder the breakdown of methoxypyrazines, which can give herbaceous aromas

Question 12

In black grapes, anthocyanin synthesis (and therefore the development of color) is optimum at what temperature range?

Answer 12

15-25C (59-77F)

Question 13

What can happen to the vine during extreme heat (especially when paired with dry conditions)? Why?

Answer 13

• photosynthesis can slow or drop
• slows vine growth and grape ripening

Why: the enzymes that catalyze photosynthesis are heat-sensitive

Question 14

Do late-ripening varieties require a greater or lesser amount of heat throughout the growing season to ripen sufficiently?

Answer 14

Greater

Question 15

Do early-ripening varieties require a greater or lesser amount of heat throughout the growing season to ripen sufficiently?

Answer 15

Less heat in total, and will ripen very early in warm climates

Question 16

By how much does temperature fall over every 100m increase in altitude?

Answer 16

Temps fall by approximately 0.6C (1.1F)

Question 18

What is diurnal range?

Answer 18

The average difference between day and night temps

Question 19

How does altitude affect diurnal range? Why?

Answer 19

Higher altitude=higher diurnal range

• ground absorbs energy from solar radiation during the day, releases energy into the atmosphere during the night
• lower altitude = the air in the atmosphere (particularly water vapor) absorbs some of this energy, meaning some heat is retained at night
• high altitude = air is thinner and holds less moisture and therefore heat rapidly escapes, leading to relatively cool night-time temps

Question 20

How can a large body of water impact nearby vineyards during the day?

Answer 20

During the day, the water and the air above a body of water remains relatively cool, and lowers the average temp in the local area

Question 21

How can a large body of water impact nearby vineyards overnight?

Answer 21

The water retains the warmth gained during the day, whereas, without solar radiation, the land loses heat relatively quickly. The warmth of the body of water keeps the local area warmer.

Question 22

Name a cool climate region that significantly benefits from large bodies of water. Describe why.

Answer 22

• Finger Lakes in NY: close proximity to the lakes reduces the severity of winter freeze
• the movement of air also helps to protect against spring frosts that could reduce yields

Question 23

Name a warm climate region that significantly benefits from large bodies of water. Describe why.

Answer 23

• Carneros, CA, proximity to the San Pablo Bay
• early-ripening varieties Chardonnay and Pinot Noir can be grown here (for still and sparkling), benefiting from cooling breezes

Question 24

How can ocean currents affect temperatures?

Answer 24

Depends on the current, some are warm, some are cool

Question 25

Name a warming ocean current and a region that it affects.

Answer 25

• Gulf Stream (flows from the Gulf of Mexico), warms Margaux in Bordeaux

Question 26

Name a cooling ocean current and a region that it affects.

Answer 26

• California current, cools Willamette Valley in OR

Question 27

Name 2 ways cool climate vineyards benefit from close proximity to large bodies of water

Answer 27

1. water retains the warmth during the day, keeps surrounding area warmer
2. radiation reflected from the water surface can help where there is not enough sunshine

Question 28

What is El Nino-Southern Oscillation (ENSO)? Name its 2 opposite phases.

Answer 28

• a climatic cycle in the Pacific Ocean that has a significant effect on weather patterns
• it has two opposite phases, El Nino and La Nina

Question 29

How does El Nino start? What does it bring?

Answer 29

El Nino starts when warm water in the western Pacific Ocean moves eastwards along the Equator towards the Caribbean.

Brings:

• high levels of rainfall and risk of hurricanes in South America and California
• warmer than average temps and drier conditions in the PNW (WA and OR)
• warmer temps and drought conditions in Australia

Question 30

How frequently does El Nino occur?

Answer 30

• once every 3-7 years, extreme El Nino events being rarer
• more frequent as a part of climate change

Question 31

What starts La Nina? What does it bring?

Answer 31

La Nina is caused when the eastern Pacific Ocean is cooler than average

Brings:

• cooler, wetter conditions in the PNW and Australia
• warmer, drier conditions in CA and South America

Question 32

Can winds have a cooling or warming influence, or both?

Answer 32

BOTH

Question 33

Would areas near a body of water experience cooler or warmer breezes during the day? How does this influence the area’s diurnal range?

Answer 33

• cooler
• moderates the diurnal range

Question 34

How can valleys enhance the effects of wind? Give an example.

Answer 34

• valleys that face the coast or other areas of low land (e.g. Petaluma Gap in CA) can mean that winds are felt even relatively far inland
• valleys can also lead to stronger winds as the moving air is funnelled

Question 35

What effect would winds that have travelled over hot land masses have on a vineyard? Give an example.

Answer 35

• these winds can bring warm air that heats the vineyard area
• the Zonda in Mendoza

Question 36

What effect do winds and breezes have on the development of fungal diseases?

Answer 36

• reduce the occurrence of humid, stagnant air in the vine canopy, that encourages the development of fungal diseases

Question 37

What are some possible downfalls to wind?

Answer 37

• increase evapotranspiration rates in the vine (vine needs more water, can lead to water stress)
• damage to vines and trellising (lower yields and higher equipment and labor costs)

Question 38

How can a wine grower protect against wind damage? What are the cons of each method?

Answer 38

• rows of trees can be planted at the edges of vineyards to act as windbreaks; however, care must be taken, as they can compete with the nearest vines for water and nutrients
• fences can also be used, but are less aesthetic and require maintenance

Question 39

What types of soils warm up more quickly in the spring?

Answer 39

Soils that drain freely, for example sandy or stony soils

Question 40

Why is a rising soil temperature beneficial during the springtime?

Answer 40

• encourages the breakdown of starch in the roots, which stimulates budburst and shoot growth
• encourages root growth, which means the vine can absorb more water and nutrients

Question 41

What effects do light-colored soils have on the vines?

Answer 41

• light colored soils reflect some energy from solar radiation
• extra light energy into the lower parts of the canopy that may receive less sunlight from above can be beneficial to increase photosynthesis and grape ripening in cool and cloudy climates or where late-ripening grapes are used

Question 42

In what climates might light-colored soils be beneficial? Harmful?

Answer 42

Beneficial: cool/cloudy climates (extra light energy)

Harmful: warm (further increase warm temps)

Question 43

Name an area with a light-colored soil

Answer 43

Rich in chalk (e.g. Sancerre and Champagne)

Question 44

Name an area with a dark-colored soil

Answer 44

From volcanic origin (e.g. Etna)

Question 45

In what climates might dark-colored soils be beneficial?

Answer 45

Cool climates (extra development during the night)

Question 46

What is the benefit of stony soils?

Answer 46

• especially if the underlying soil is slightly damp, stony soils are very effective at absorbing heat and releasing it at night
• stone and water are good conductors compared to air

Question 47

How does mist form?

Answer 47

• mists are formed by tiny drops of water collecting in the air just above an area of ground or water
• they are usually formed when warm air is rapidly cooler, causing water vapor in the air to condense

Question 48

What is fog?

Answer 48

dense mist

Question 49

When is the most common time of day for mist to form?

Answer 49

Morning

Question 50

Name 4 regions where morning mist is common

Answer 50

1. Sonoma
2. Napa
3. Leyda Valley
4. Sauternes

Question 51

What effects do mist and fog have on the vine?

Answer 51

• limit sunlight (reduce photosynthesis)
• lower temps
• slow sugar accumulation
• slow acid degredation
• increase humidity (fungal diseases)
• increase noble rot

Question 52

In what climatic condition can mist and fog be beneficial? For what types of grape varieties?

Answer 52

• warmer regions
• early ripening grape varieties

Question 53

Which climate has a higher diurnal range? What altitudes have a higher diurnal range?

Answer 53

• continental climates
• higher altitudes

Question 54

What types of regions have a lower diurnal range?

Answer 54

• close proximity to a body of water
• lower altitudes

Question 55

In what climates is a large diurnal range thought to be beneficial? Name 2 regions.

Answer 55

• warm/hot climates
• cooler nights can slow the respiration of malic acid and be beneficial for the formation of anthocyanins (e.g. Mendoza, Ribera del Duero)

Question 56

In what climates is a low diurnal range thought to be beneficial? Name 2 regions.

Answer 56

• cool/moderate climates
• nighttime temps still allow for ripening (e.g. Mornington Peninsula or Mosel)

Question 57

What effect do night-time temps have on methoxypyrazines? On rotundone?

Answer 57

• warmer night temps = greater breakdown of methoxypyrazines (important in cool climates)
• cooler night temps = greater retention of other compounds, such as rotundone

Question 58

Give and example where cold night time temps (e.g. under 15C/59F) seem to be beneficial in cool climates

Answer 58

• many of the top sites in the Wachau, Austria, see relatively cool days and cold nights