1. //
  2. Start
  3. //
  4. Publications
  5. Can management compensate for atmospheri...
  6. Output formats
  7. //

Can management compensate for atmospheric nutrient deposition in heathland ecosystems?

Research output: Journal contributionsJournal articlesResearchpeer-review

Standard

Can management compensate for atmospheric nutrient deposition in heathland ecosystems? / Härdtle, Werner; Niemeyer, Marion; Niemeyer, Thomas et al.
In: The Journal of Applied Ecology, Vol. 43, No. 4, 01.08.2006, p. 759-769.

Research output: Journal contributionsJournal articlesResearchpeer-review

Harvard

Härdtle, W, Niemeyer, M, Niemeyer, T, Aßmann, T & Fottner, S 2006, 'Can management compensate for atmospheric nutrient deposition in heathland ecosystems?', The Journal of Applied Ecology, vol. 43, no. 4, pp. 759-769. https://doi.org/10.1111/j.1365-2664.2006.01195.x

APA

Härdtle, W., Niemeyer, M., Niemeyer, T., Aßmann, T., & Fottner, S. (2006). Can management compensate for atmospheric nutrient deposition in heathland ecosystems? The Journal of Applied Ecology, 43(4), 759-769. https://doi.org/10.1111/j.1365-2664.2006.01195.x

Vancouver

Härdtle W, Niemeyer M, Niemeyer T, Aßmann T, Fottner S. Can management compensate for atmospheric nutrient deposition in heathland ecosystems? The Journal of Applied Ecology. 2006 Aug 1;43(4):759-769. doi: 10.1111/j.1365-2664.2006.01195.x

Bibtex

@article{fcdda5cd0cbe4a18b4026f137c4d46ac,
title = "Can management compensate for atmospheric nutrient deposition in heathland ecosystems?",
abstract = "1. Atmospheric nutrient deposition has contributed to widespread changes in heathlands throughout Europe. As a consequence, management is now being considered as a potential tool with which to compensate for increased nutrient loads. Currently, only limited information is available on the extent to which management measures could compensate for atmospheric nutrient deposition. We hypothesized that low-intensity management measures are not sufficient to counterbalance current nutrient inputs, particularly of nitrogen (N). 2. In order to improve heathland management schemes, we evaluated the effectiveness of different management measures in reducing the impact of ongoing atmospheric nutrient loads. We compared the effects of mowing, prescribed burning (low-intensity management) and sod-cutting (high-intensity management) on heathland nutrient budgets [N, calcium (Ca), potassium (K), magnesium (Mg) and phosphorus (P)] in the Lueneburg Heath nature reserve (north-west Germany). Nutrient balances were calculated by analysing the present-day input, the output as a result of the removal of biomass/humus horizons, and changes in leaching rates. 3. Nutrient losses by increased leaching following management measures were negligible compared with nutrient losses caused by the removal of above-ground biomass or humus horizons. The total quantities of nutrients removed by sod-cutting were equivalent to between 37 and 176 years of atmospheric input (for N, 89 years). 4. In contrast, the quantities of N removed by mowing and prescribed burning were equivalent to only 5 years of atmospheric input. Thus, heathlands subjected to such treatments will accumulate N in the long term. In addition, output-input ratios for phosphorus (P) exceeded those for N in the mowing and sod-cutting experiments. It is therefore likely that heathlands currently (co-) limited by N will shift to being more P-limited in the long term. This will promote species that are well adapted to P-limited sites (e.g. Molinia caerulea). 5. Synthesis and applications. This study shows that low-intensity management cannot compensate for atmospheric N loads in the long term. Consequently, high-intensity management measures are an indispensable tool in preserving a long-term balanced N budget in heathlands. In order to maintain a diverse structure, managers need to combine low- and high-intensity management measures. Prescribed burning proved to be the best means of avoiding an increasing P shortage, because this measure causes very low P outputs.",
keywords = "Chemistry, Biology, Leaching, Mowing, N:P ratio, Nitrogen deposition, Nutrient balance, Prescribed burning, Sod-cutting",
author = "Werner H{\"a}rdtle and Marion Niemeyer and Thomas Niemeyer and Thorsten A{\ss}mann and Silke Fottner",
note = "Literaturverz. S. 768-769",
year = "2006",
month = aug,
day = "1",
doi = "10.1111/j.1365-2664.2006.01195.x",
language = "English",
volume = "43",
pages = "759--769",
journal = "The Journal of Applied Ecology",
issn = "0021-8901",
publisher = "Wiley-Blackwell Publishing Ltd.",
number = "4",

}

RIS

TY - JOUR

T1 - Can management compensate for atmospheric nutrient deposition in heathland ecosystems?

AU - Härdtle, Werner

AU - Niemeyer, Marion

AU - Niemeyer, Thomas

AU - Aßmann, Thorsten

AU - Fottner, Silke

N1 - Literaturverz. S. 768-769

PY - 2006/8/1

Y1 - 2006/8/1

N2 - 1. Atmospheric nutrient deposition has contributed to widespread changes in heathlands throughout Europe. As a consequence, management is now being considered as a potential tool with which to compensate for increased nutrient loads. Currently, only limited information is available on the extent to which management measures could compensate for atmospheric nutrient deposition. We hypothesized that low-intensity management measures are not sufficient to counterbalance current nutrient inputs, particularly of nitrogen (N). 2. In order to improve heathland management schemes, we evaluated the effectiveness of different management measures in reducing the impact of ongoing atmospheric nutrient loads. We compared the effects of mowing, prescribed burning (low-intensity management) and sod-cutting (high-intensity management) on heathland nutrient budgets [N, calcium (Ca), potassium (K), magnesium (Mg) and phosphorus (P)] in the Lueneburg Heath nature reserve (north-west Germany). Nutrient balances were calculated by analysing the present-day input, the output as a result of the removal of biomass/humus horizons, and changes in leaching rates. 3. Nutrient losses by increased leaching following management measures were negligible compared with nutrient losses caused by the removal of above-ground biomass or humus horizons. The total quantities of nutrients removed by sod-cutting were equivalent to between 37 and 176 years of atmospheric input (for N, 89 years). 4. In contrast, the quantities of N removed by mowing and prescribed burning were equivalent to only 5 years of atmospheric input. Thus, heathlands subjected to such treatments will accumulate N in the long term. In addition, output-input ratios for phosphorus (P) exceeded those for N in the mowing and sod-cutting experiments. It is therefore likely that heathlands currently (co-) limited by N will shift to being more P-limited in the long term. This will promote species that are well adapted to P-limited sites (e.g. Molinia caerulea). 5. Synthesis and applications. This study shows that low-intensity management cannot compensate for atmospheric N loads in the long term. Consequently, high-intensity management measures are an indispensable tool in preserving a long-term balanced N budget in heathlands. In order to maintain a diverse structure, managers need to combine low- and high-intensity management measures. Prescribed burning proved to be the best means of avoiding an increasing P shortage, because this measure causes very low P outputs.

AB - 1. Atmospheric nutrient deposition has contributed to widespread changes in heathlands throughout Europe. As a consequence, management is now being considered as a potential tool with which to compensate for increased nutrient loads. Currently, only limited information is available on the extent to which management measures could compensate for atmospheric nutrient deposition. We hypothesized that low-intensity management measures are not sufficient to counterbalance current nutrient inputs, particularly of nitrogen (N). 2. In order to improve heathland management schemes, we evaluated the effectiveness of different management measures in reducing the impact of ongoing atmospheric nutrient loads. We compared the effects of mowing, prescribed burning (low-intensity management) and sod-cutting (high-intensity management) on heathland nutrient budgets [N, calcium (Ca), potassium (K), magnesium (Mg) and phosphorus (P)] in the Lueneburg Heath nature reserve (north-west Germany). Nutrient balances were calculated by analysing the present-day input, the output as a result of the removal of biomass/humus horizons, and changes in leaching rates. 3. Nutrient losses by increased leaching following management measures were negligible compared with nutrient losses caused by the removal of above-ground biomass or humus horizons. The total quantities of nutrients removed by sod-cutting were equivalent to between 37 and 176 years of atmospheric input (for N, 89 years). 4. In contrast, the quantities of N removed by mowing and prescribed burning were equivalent to only 5 years of atmospheric input. Thus, heathlands subjected to such treatments will accumulate N in the long term. In addition, output-input ratios for phosphorus (P) exceeded those for N in the mowing and sod-cutting experiments. It is therefore likely that heathlands currently (co-) limited by N will shift to being more P-limited in the long term. This will promote species that are well adapted to P-limited sites (e.g. Molinia caerulea). 5. Synthesis and applications. This study shows that low-intensity management cannot compensate for atmospheric N loads in the long term. Consequently, high-intensity management measures are an indispensable tool in preserving a long-term balanced N budget in heathlands. In order to maintain a diverse structure, managers need to combine low- and high-intensity management measures. Prescribed burning proved to be the best means of avoiding an increasing P shortage, because this measure causes very low P outputs.

KW - Chemistry

KW - Biology

KW - Leaching

KW - Mowing

KW - N:P ratio

KW - Nitrogen deposition

KW - Nutrient balance

KW - Prescribed burning

KW - Sod-cutting

UR - http://www.scopus.com/inward/record.url?scp=33745713543&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/b2502f0b-08c2-339a-8a4f-c9e6c3d7ff20/

U2 - 10.1111/j.1365-2664.2006.01195.x

DO - 10.1111/j.1365-2664.2006.01195.x

M3 - Journal articles

VL - 43

SP - 759

EP - 769

JO - The Journal of Applied Ecology

JF - The Journal of Applied Ecology

SN - 0021-8901

IS - 4

ER -

Related by journal

Temperate alley-cropping agroforestry improves pest control potential by promoting spider abundance and functional diversity

Matevski, D., Sagolla, V., Beule, L. & Schuldt, A., 12.2024, In: Journal of Applied Ecology. 61, 12, p. 3079-3091 13 p.

Research output: Journal contributionsJournal articlesResearchpeer-review

Tree mixtures mediate negative effects of introduced tree species on bird taxonomic and functional diversity

Schuldt, A., Huke, P., Glatthorn, J., Hagge, J., Wildermuth, B. & Matevski, D., 12.2022, In: Journal of Applied Ecology. 59, 12, p. 3049-3060 12 p.

Research output: Journal contributionsJournal articlesResearchpeer-review

Tree species richness promotes an early increase of stand structural complexity in young subtropical plantations

Perles-Garcia, M. D., Kunz, M., Fichtner, A., Härdtle, W. & von Oheimb, G., 10.2021, In: Journal of Applied Ecology. 58, 10, p. 2305-2314 10 p.

Research output: Journal contributionsJournal articlesResearchpeer-review

Controlling invasive plant species in ecological restoration: A global review

Weidlich, E. W. A., Flórido, F. G., Sorrini, T. B. & Brancalion, P. H. S., 01.09.2020, In: Journal of Applied Ecology. 57, 9, p. 1806-1817 12 p.

Research output: Journal contributionsScientific review articlesResearch

Mediterranean marine protected areas have higher biodiversity via increased evenness, not abundance

Blowes, S. A., Chase, J. M., Di Franco, A., Frid, O., Gotelli, N. J., Guidetti, P., Knight, T. M., May, F., McGlinn, D. J., Micheli, F., Sala, E. & Belmaker, J., 01.03.2020, In: Journal of Applied Ecology. 57, 3, p. 578-589 12 p.

Research output: Journal contributionsJournal articlesResearchpeer-review

Other publications by the same author(s)

Exploring priority and year effects on plant diversity, productivity and vertical root distribution: first insights from a grassland field experiment

Alonso-Crespo, I. M., Temperton, V., Fichtner, A., Niemeyer, T., Schloter, M. & Delory, B., 03.2025, In: Journal of Vegetation Science. 36, 2, 41 p., e70026.

Research output: Journal contributionsJournal articlesResearchpeer-review

How to promote spider diversity of heathlands: impact of management intensity

Matevski, D., Temperton, V. M., Walmsley, D., Haerdtle, W., Daniels, J. & Boutaud, E., 04.2025, In: Biodiversity and Conservation. 34, p. 1057-1070 14 p.

Research output: Journal contributionsJournal articlesResearchpeer-review

Nachbarschafts-Artenvielfalt kann trockenheitsbedingte Zuwachseinbußen bei Bäumen mindern

Härdtle, W. & Fichtner, A., 23.08.2024, Berichte der Reinhold-Tüxen-Gesellschaft. Stojakowits, P. (ed.). München: AVM Akademische Verlagsgemeinschaft, Vol. 32. p. 119-131 13 p. (Berichte der Reinhold-Tüxen-Gesellschaft; vol. 32).

Research output: Contributions to collected editions/worksArticle in conference proceedingsResearchpeer-review

Tree diversity increases forest temperature buffering via enhancing canopy density and structural diversity

Schnabel, F., Beugnon, R., Yang, B., Richter, R., Eisenhauer, N., Huang, Y., Liu, X., Wirth, C., Cesarz, S., Fichtner, A., Perles-García, M. D., Hähn, G., Härdtle, W., Kunz, M., Castro-Izaguirre, N., Niklaus, P. A., von Oheimb, G., Schmid, B., Trogisch, S., Wendisch, M., Ma, K. & Bruelheide, H., 01.03.2025, In: Ecology Letters. 28, 3, p. 1-11 11 p., e70096.

Research output: Journal contributionsComments / Debate / ReportsResearch

Biodiversität, Ökosystemfunktionen und Naturschutz

Härdtle, W., 19.06.2024, Berlin, Heidelberg: Springer. 911 p. (Life Science and Basic Disciplines)

Research output: Books and anthologiesBook

DOI