How to predict hydrological effects of local land use change:  how the vegetation parameterisation for short rotation coppices influences model results

Richter, F.; Döring, C.; Jansen, M.; Panferov, O.; Spank, U.; Bernhofer, C.

doi:https://doi.org/10.5194/hess-19-3457-2015

Articles | Volume 19, issue 8

https://doi.org/10.5194/hess-19-3457-2015

© Author(s) 2015. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/hess-19-3457-2015

© Author(s) 2015. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 19, issue 8

Research article

|

07 Aug 2015

Research article |

| 07 Aug 2015

How to predict hydrological effects of local land use change: how the vegetation parameterisation for short rotation coppices influences model results

F. Richter, C. Döring, M. Jansen, O. Panferov, U. Spank, and C. Bernhofer

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Views and downloads (calculated since 13 Jan 2015)

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May 2015	3	5	0	8
Jun 2015	5	1	0	6
Jul 2015	15	10	0	25
Aug 2015	87	72	7	166
Sep 2015	32	30	5	67
Oct 2015	31	11	7	49
Nov 2015	31	12	3	46
Dec 2015	10	17	1	28
Jan 2016	34	22	0	56
Feb 2016	27	18	2	47
Mar 2016	31	17	17	65
Apr 2016	8	5	0	13
May 2016	4	5	0	9
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Jul 2016	8	3	2	13
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Apr 2024	17	9	5	31
May 2024	25	12	5	42
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Cumulative views and downloads (calculated since 13 Jan 2015)

Month	HTML	PDF	XML	Total
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Feb 2015	42	28	2	72
Mar 2015	21	12	1	34
Apr 2015	13	5	0	18
May 2015	3	5	0	8
Jun 2015	5	1	0	6
Jul 2015	15	10	0	25
Aug 2015	87	72	7	166
Sep 2015	32	30	5	67
Oct 2015	31	11	7	49
Nov 2015	31	12	3	46
Dec 2015	10	17	1	28
Jan 2016	34	22	0	56
Feb 2016	27	18	2	47
Mar 2016	31	17	17	65
Apr 2016	8	5	0	13
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Latest update: 04 Nov 2024

Short summary

Predicting hydrological effects of land use change, e.g. enhanced cultivation of short rotation coppices, requires an adequate parameterisation. Measurements and modelling results show that leaf area index, stomatal resistance and in particular start and length of growing season are most sensitive to soil hydrological quantities, like ground water recharge (GWR). Only simulations over 30 years, reflecting long-term climate variability, show even zero GWR, especially in succeeding dry years.

How to predict hydrological effects of local land use change: how the vegetation parameterisation for short rotation coppices influences model results

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