Difference between revisions of "Growing Degree Day"
| Line 1: | Line 1: | ||
| + | Growing Degree Days (GDD), also called Growing Degree Units (GDU) or Heat Units (HU), are based on the observation that within limits, plants grow faster when warm and more slowly when cold. Below a base temperature (Tbase), the plant is dormant and little growth occurs. At temperatures above an upper limit, (Tmax), the plant does not grow any faster. | ||
Each plant species has its own lower air temperature threshold and upper | Each plant species has its own lower air temperature threshold and upper | ||
| Line 5: | Line 6: | ||
range. This temperature range varies for each plant. | range. This temperature range varies for each plant. | ||
| + | Different methods exist for calculating heat units depending on a) the crop or biological | ||
| + | organism of interest and b) the whim or personal preference of the researcher. | ||
Growing degree day units are calculated by using the maximum daily air | Growing degree day units are calculated by using the maximum daily air | ||
temperature, the minimum daily air temperature and the crop’s lower | temperature, the minimum daily air temperature and the crop’s lower | ||
temperature threshold. | temperature threshold. | ||
| − | + | The method most commonly used in the U.S. for determining heat unit accumulation relative to corn phenology is the formula first suggested by the National Oceanic and Atmospheric Administration. The “modified growing degree day formula” calculates daily accumulation of GDD’s as the average daily temperature minus 50° F. | |
Revision as of 10:34, 25 November 2018
Growing Degree Days (GDD), also called Growing Degree Units (GDU) or Heat Units (HU), are based on the observation that within limits, plants grow faster when warm and more slowly when cold. Below a base temperature (Tbase), the plant is dormant and little growth occurs. At temperatures above an upper limit, (Tmax), the plant does not grow any faster.
Each plant species has its own lower air temperature threshold and upper air temperature threshold. It is assumed that no growth occurs outside of this range. This temperature range varies for each plant.
Different methods exist for calculating heat units depending on a) the crop or biological organism of interest and b) the whim or personal preference of the researcher. Growing degree day units are calculated by using the maximum daily air temperature, the minimum daily air temperature and the crop’s lower temperature threshold.
The method most commonly used in the U.S. for determining heat unit accumulation relative to corn phenology is the formula first suggested by the National Oceanic and Atmospheric Administration. The “modified growing degree day formula” calculates daily accumulation of GDD’s as the average daily temperature minus 50° F.
Calculate Growing Degree Day (GDD) for each hive and add to database.
Centigrade Tbase = 10 Tmax = 30
SET @gdd_total:=0; SELECT q1.doy, q1.gdd, round(@gdd_total := @gdd_total + q1.gdd) as gdd_tot FROM (SELECT DAYOFYEAR(DATE_FORMAT(`hive_observation_time_local`, '%Y-%m-%d')) AS doy, (least(greatest(max(wx_temp_c),10),30) - least(greatest(min(wx_temp_c),10),30))/2 AS gdd from HIVE_DATA where hive_id=10 group by DATE_FORMAT(`hive_observation_time_local`, '%Y-%m-%d') ) AS q1
SELECT hive_id, DAYOFYEAR(DATE_FORMAT(`hive_observation_time_local`, '%Y-%m-%d')) AS doy, (least(greatest(max(wx_temp_c),10),30) - least(greatest(min(wx_temp_c),10),30))/2 AS gdd from HIVE_DATA group by DATE_FORMAT(`hive_observation_time_local`, '%Y-%m-%d'), hive_id
