A model to predict the beginning of the pollen season

Department of Plant and Environmental Sciences

A model to predict the beginning of the pollen season

Research output: Contribution to journal › Journal article › Research › peer-review

Standard

A model to predict the beginning of the pollen season. / Toldam-Andersen, Torben Bo.

In: Grana, Vol. 30, 09.1991, p. 269-275.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Toldam-Andersen, TB 1991, 'A model to predict the beginning of the pollen season', Grana, vol. 30, pp. 269-275. https://doi.org/10.1080/00173139109427810

APA

Toldam-Andersen, T. B. (1991). A model to predict the beginning of the pollen season. Grana, 30, 269-275. https://doi.org/10.1080/00173139109427810

Vancouver

Toldam-Andersen TB. A model to predict the beginning of the pollen season. Grana. 1991 Sep;30:269-275. https://doi.org/10.1080/00173139109427810

Author

Toldam-Andersen, Torben Bo. / A model to predict the beginning of the pollen season. In: Grana. 1991 ; Vol. 30. pp. 269-275.

Bibtex

@article{305ad2c595fb4cafab9c73b3ef4adb6e,

title = "A model to predict the beginning of the pollen season",

abstract = "In order to predict the beginning of the pollen season, a model comprising the Utah phenoclirnatography Chill Unit (CU) and ASYMCUR-Growing Degree Hour (GDH) submodels were used to predict the first bloom in Alms, Ulttirrs and Berirln. The model relates environmental temperatures to rest completion and bud development. As phenologic parameter 14 years of pollen counts were used. The observed datcs for the beginning of the pollen seasons were defined from the pollen counts and compared with the model prediction.The CU and GDH submodels were used as:1. A fixed day model, using only the GDH model with 1st January as fixed initiation point.2. A CU/GDH model, with a fixed sum of Chill Unit requirement as initiation point for the subsequent GDH accumulation.3. A dynamic CU/GDH model, based on a dynamic relationship between CU and GDH.It is concluded that the CU and GDH relationships defined for fruit trees are generally applicable, and give a reasonable description of the growth processes of other trees. This type of model can therefore be of value in predicting the start of the pollen season. The predicted dates were generally within 3-5 days of the observed.Finally the possibility of frost damage is discussed in relation to the great variation in the total pollen counts observed from one year to the other.",

author = "Toldam-Andersen, {Torben Bo}",

year = "1991",

month = sep,

doi = "10.1080/00173139109427810",

language = "English",

volume = "30",

pages = "269--275",

journal = "Grana",

issn = "0017-3134",

publisher = "Taylor & Francis Scandinavia",

}

RIS

TY - JOUR

T1 - A model to predict the beginning of the pollen season

AU - Toldam-Andersen, Torben Bo

PY - 1991/9

Y1 - 1991/9

N2 - In order to predict the beginning of the pollen season, a model comprising the Utah phenoclirnatography Chill Unit (CU) and ASYMCUR-Growing Degree Hour (GDH) submodels were used to predict the first bloom in Alms, Ulttirrs and Berirln. The model relates environmental temperatures to rest completion and bud development. As phenologic parameter 14 years of pollen counts were used. The observed datcs for the beginning of the pollen seasons were defined from the pollen counts and compared with the model prediction.The CU and GDH submodels were used as:1. A fixed day model, using only the GDH model with 1st January as fixed initiation point.2. A CU/GDH model, with a fixed sum of Chill Unit requirement as initiation point for the subsequent GDH accumulation.3. A dynamic CU/GDH model, based on a dynamic relationship between CU and GDH.It is concluded that the CU and GDH relationships defined for fruit trees are generally applicable, and give a reasonable description of the growth processes of other trees. This type of model can therefore be of value in predicting the start of the pollen season. The predicted dates were generally within 3-5 days of the observed.Finally the possibility of frost damage is discussed in relation to the great variation in the total pollen counts observed from one year to the other.

AB - In order to predict the beginning of the pollen season, a model comprising the Utah phenoclirnatography Chill Unit (CU) and ASYMCUR-Growing Degree Hour (GDH) submodels were used to predict the first bloom in Alms, Ulttirrs and Berirln. The model relates environmental temperatures to rest completion and bud development. As phenologic parameter 14 years of pollen counts were used. The observed datcs for the beginning of the pollen seasons were defined from the pollen counts and compared with the model prediction.The CU and GDH submodels were used as:1. A fixed day model, using only the GDH model with 1st January as fixed initiation point.2. A CU/GDH model, with a fixed sum of Chill Unit requirement as initiation point for the subsequent GDH accumulation.3. A dynamic CU/GDH model, based on a dynamic relationship between CU and GDH.It is concluded that the CU and GDH relationships defined for fruit trees are generally applicable, and give a reasonable description of the growth processes of other trees. This type of model can therefore be of value in predicting the start of the pollen season. The predicted dates were generally within 3-5 days of the observed.Finally the possibility of frost damage is discussed in relation to the great variation in the total pollen counts observed from one year to the other.

U2 - 10.1080/00173139109427810

DO - 10.1080/00173139109427810

M3 - Journal article

VL - 30

SP - 269

EP - 275

JO - Grana

JF - Grana

SN - 0017-3134

ER -

ID: 185999042