BIBLIOGRAFIA

Publikacje naukowe związane z projektem Wetlands Green Life

Znaleziono publikacji: 124

1

10,000 years of climate control over carbon accumulation in an Iberian bog (southwestern Europe)

Pontevedra-Pombal, X., Castro, D., Souto, M., Fraga, I., Blake, W. H., Blaauw, M., ... & García-Rodeja, E. (2019)

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2

A meta-analysis of peatland microbial diversity and function responses to climate change

Le Geay, M., Lauga, B., Walcker, R., & Jassey, V. E. (2023)

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3

A monitoring protocol for vegetation change on Irish peatland and heath

O'connell, J., Connolly, J., & Holden, N. M. (2014)

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4

A multi-proxy reconstruction of moisture dynamics in a peatland ecosystem: A case study from Čepkeliai, Lithuania

Edvardsson, J., Baužienė, I., Lamentowicz, M., Šimanauskienė, R., Tamkevičiūtė, M., Taminskas, J., ... & Stoffel, M. (2019)

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5

A multi-year study of ecosystem production and its relation to biophysical factors over a temperate peatland

Poczta, P., Urbaniak, M., Sachs, T., Harenda, K. M., Klarzyńska, A., Juszczak, R., ... & Chojnicki, B. H. (2023)

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6

A review of the effects of vehicular access roads on peatland ecohydrological processes

Williams-Mounsey, J., Grayson, R., Crowle, A., & Holden, J. (2021)

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7

Afforestation or natural succession? Looking for the best way to manage abandoned cut-over peatlands for biodiversity conservation

Woziwoda, B., & Kopeć, D. (2014)

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8

Always on the tipping point – A search for signals of past societies and related peatland ecosystem critical transitions during the last 6500 years in N Poland

Lamentowicz, M., Kołaczek, P., Mauquoy, D., Kittel, P., Łokas, E., Słowiński, M., ... & Marcisz, K. (2019)

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9

An optimized method for studying fungal biomass and necromass in peatlands via chitin concentration

Adamczyk, S., Larmola, T., Peltoniemi, K., Laiho, R., Näsholm, T., & Adamczyk, B. (2020)

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10

An overview of the progress and challenges of peatland restoration in Western Europe

Andersen, R., Farrell, C., Graf, M., Muller, F., Calvar, E., Frankard, P., ... & Anderson, P. (2017)

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11

Anthropocene history of rich fen acidification in W Poland — Causes and indicators of change

Karpińska-Kołaczek, M., Kołaczek, P., Czerwiński, S., Gałka, M., Guzowski, P., & Lamentowicz, M. (2022)

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12

Application of multisensoral remote sensing data in the mapping of alkaline fens Natura 2000 habitat

Kopeć, D., Michalska-Hejduk, D., Berezowski, T., Borowski, M., Rosadzinski, S., & Chormanski, J. (2016)

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13

Assessment of regulating ES potential of lowland riparian hardwood forests in Poland

Kowalska, A., Affek, A., Wolski, J., Regulska, E., Kruczkowska, B., Zawiska, I., ... & Baranowski, J. (2021)

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14

Atmospheric ammonia and nitrogen deposition on Irish Natura 2000 sites: Implications for Irish agriculture

Kelleghan, D. B., Hayes, E. T., Everard, M., Keating, P., Lesniak-Podsiadlo, A., & Curran, T. P. (2021)

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15

Carbon accumulation dynamics and development processes of peatland established after the Changbaishan Millennium eruption

Zhang, M., Smol, J. P., & Wang, L. (2023)

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16

Carbon and water balance of an afforested shallow drained peatland in Iceland

Bjarnadottir, B., Sungur, G. A., Sigurdsson, B. D., Kjartansson, B. T., Oskarsson, H., Oddsdottir, E. S., ... & Black, A. (2021)

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17

Carbon balance of a restored and cutover raised bog: Implications for restoration and comparison to global trends

Swenson, M. M., Regan, S., Bremmers, D. T., Lawless, J., Saunders, M., & Gill, L. W. (2019)

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18

Challenges and opportunities for grassland restoration: A global perspective of best practices in the era of climate change

Lyons, K. G., Török, P., Hermann, J. M., Kiehl, K., Kirmer, A., Kollmann, J., ... & Temperton, V. M. (2023)

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19

Changes in microbial community composition, activity, and greenhouse gas production upon inundation of drained iron-rich peat soils

de Jong, A. E., Guererro-Cruz, S., van Diggelen, J. M., Vaksmaa, A., Lamers, L. P., Jetten, M. S., ... & Rasigraf, O. (2020)

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20

Changes in soil dissolved organic matter optical properties during peatland succession

Li, J., Zhao, L., Li, M., Min, Y., Zhan, F., Wang, Y., ... & Bian, H. (2022)

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21

Characteristics, vulnerability and conservation value of active tufa-forming springs on coastal cliffs in the NW Iberian Peninsula

Guitián, M. A. R., Real, C., Ramil-Rego, P., Franco, R. R., & Castro, H. L. (2020)

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22

CO2 fluxes from drained and rewetted peatlands using a new ECOSSE model water table simulation approach

Premrov, A., Wilson, D., Saunders, M., Yeluripati, J., & Renou-Wilson, F. (2021)

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23

Deposition of mullite in peatlands of southern Poland: Implications for recording large-scale industrial processes

Smieja-Król, B., Fiałkiewicz-Kozieł, B., Michalska, A., Krzykawski, T., & Smołka-Danielowska, D. (2019)

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24

Dominant Tree Species and Soil Type Affect the Fungal Community Structure in a Boreal Peatland Forest

Sun, H., Terhonen, E., Kovalchuk, A., Tuovila, H., Chen, H., Oghenekaro, A. O., ... & Asiegbu, F. O. (2016)

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25

Drainage status of grassland peat soils in Ireland: Extent, efficacy and implications for GHG emissions and rewetting efforts

Tuohy, P., O'Sullivan, L., Bracken, C. J., & Fenton, O. (2023)

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26

Dynamics of erosion and suspended sediment transport from drained peatland forestry

Marttila, H., & Kløve, B. (2010)

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27

Dynamics of organic matter accumulation and decomposition in the surface soil of forestry-drained peatland sites in Finland

Pitkänen, A., Simola, H., & Turunen, J. (2012)

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28

Ecological and environmental transition across the forested-to-open bog ecotone in a west Siberian peatland

Ratcliffe, J. L., Creevy, A., Andersen, R., Zarov, E., Gaffney, P. P., Taggart, M. A., ... & Payne, R. J. (2017)

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29

Edge effects on decomposition in Sphagnum bogs: Implications for carbon storage

Nordström, E., Eckstein, R. L., & Lind, L. (2022)

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30

Effectiveness of conservation interventions globally for degraded peatlands in cool-climate regions

Rowland, J. A., Bracey, C., Moore, J. L., Cook, C. N., Bragge, P., & Walsh, J. C. (2021)

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31

Effects of long-term drainage on microbial community composition vary between peatland types

Urbanová, Z., & Bárta, J. (2016)

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32

Experimental climate warming alters the relationship between fungal root symbiosis and Sphagnum litter phenolics in two peatland microhabitats

Binet, P., Rouifed, S., Jassey, V. E., Toussaint, M. L., & Chiapusio, G. (2017)

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33

Experimental warming and precipitation reduction affect the biomass of microbial communities in a Sphagnum peatland

Basińska, A. M., Reczuga, M. K., Gąbka, M., Stróżecki, M., Łuców, D., Samson, M., ... & Lamentowicz, M. (2020)

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34

Expert assessment of future vulnerability of the global peatland carbon sink

Loisel, J., Gallego-Sala, A. V., Amesbury, M. J., Magnan, G., Anshari, G., Beilman, D. W., ... & Wu, J. (2021)

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35

Exploration of the importance of physical properties of Indonesian peatlands to assess critical groundwater table depths, associated drought and fire hazard

Taufik, M., Veldhuizen, A. A., Wösten, J. H. M., & Van Lanen, H. A. J. (2019)

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36

Factors limiting microbial N2O and CO2 production in a cultivated peatland overlying an acid sulphate subsoil derived from black schist

Mäkelä, M., Kabir, K. M. J., Kanerva, S., Yli-Halla, M., & Simojoki, A. (2022)

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37

Field-flow fractionation and gel permeation methods for total soil fungal mass determination

Béni, Á., Lajtha, K., Osorio-Macías, D. E., & Fekete, I. (2021)

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38

Fighting carbon loss of degraded peatlands by jump-starting ecosystem functioning with ecological restoration

Kareksela, S., Haapalehto, T., Juutinen, R., Matilainen, R., Tahvanainen, T., & Kotiaho, J. S. (2015)

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39

Fine-root production in boreal peatland forests: Effects of stand and environmental factors

He, W., Mäkiranta, P., Straková, P., Ojanen, P., Penttilä, T., Bhuiyan, R., ... & Laiho, R. (2023)

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40

Fire activity and hydrological dynamics in the past 5700 years reconstructed from Sphagnum peatlands along the oceanic–continental climatic gradient in northern Poland

Marcisz, K., Gałka, M., Pietrala, P., Miotk-Szpiganowicz, G., Obremska, M., Tobolski, K., & Lamentowicz, M. (2017)

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41

Fire history and vegetation recovery in two raised bogs at the Baltic Sea

Sillasoo, Ü., Väliranta, M., & Tuittila, E. S. (2011)

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42

Fungal colonization patterns and enzymatic activities of peatland ericaceous plants following long-term nutrient addition

Kiheri, H., Velmala, S., Pennanen, T., Timonen, S., Sietiö, O. M., Fritze, H., ... & Larmola, T. (2020)

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43

Fungi are more sensitive than bacteria to drainage in the peatlands of the Zoige Plateau

Xue, D., Liu, T., Chen, H., Liu, J., Hu, J., & Liu, L. (2021)

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44

Global vulnerability of peatlands to fire and carbon loss

Turetsky, M. R., Benscoter, B., Page, S., Rein, G., Van Der Werf, G. R., & Watts, A. (2015)

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45

Grassland seed bank and community resilience in a changing climate

Kiss, R., Deák, B., Török, P., Tóthmérész, B., & Valkó, O. (2018)

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46

Groundwater table and soil-hydrological properties datasets of Indonesian peatlands

Taufik, M., Marliana, T. W., Mukharomah, A. K., & Minasny, B. (2022)

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47

Hidden becomes clear: Optical remote sensing of vegetation reveals water table dynamics in northern peatlands

Burdun, I., Bechtold, M., Aurela, M., De Lannoy, G., Desai, A. R., Humphreys, E., ... & Rautiainen, M. (2023)

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48

How Does Tree Density Affect Water Loss of Peatlands? A Mesocosm Experiment

Limpens, J., Holmgren, M., Jacobs, C. M., Van der Zee, S. E., Karofeld, E., & Berendse, F. (2014)

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49

Hydrochemical indicators of water source and contamination in fen peatlands of varying hydrogeomorphic settings in northern and central Poland

Solovey, T., Wojewódka-Przybył, M., & Janica, R. (2021)

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50

Hydrological feedbacks in northern peatlands

Waddington, J. M., Morris, P. J., Kettridge, N., Granath, G., Thompson, D. K., & Moore, P. A. (2015)

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51

Hydrological feedbacks on peatland CH4 emission under warming and elevated CO2: A modeling study

Yuan, F., Wang, Y., Ricciuto, D. M., Shi, X., Yuan, F., Brehme, T., ... & Xu, X. (2021)

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52

Hyperspectral vs. Multispectral data: Comparison of the spectra differentiation capabilities of Natura 2000 non-forest habitats

Jarocińska, A., Kopeć, D., Kycko, M., Piórkowski, H., & Błońska, A. (2022)

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53

Impact of peatland forestry on runoff water quality in areas with sulphide-bearing sediments; how to prevent acid surges

Saarinen, T., Mohämmädighävam, S., Marttila, H., & Kløve, B. (2013)

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54

Impact of siltation on the stability of organic matter in drained peatlands

Kalisz, B., Urbanowicz, P., Smólczyński, S., & Orzechowski, M. (2021)

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55

Inland salt marsh habitat restoration can be based on artificial flooding

Lubińska-Mielińska, S., Kamiński, D., Hulisz, P., Krawiec, A., Walczak, M., Lis, M., & Piernik, A. (2022)

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56

Interactive plant functional group and water table effects on decomposition and extracellular enzyme activity in Sphagnum peatlands

Wiedermann, M. M., Kane, E. S., Potvin, L. R., & Lilleskov, E. A. (2017)

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57

Land cover distribution in the peatlands of Peninsular Malaysia, Sumatra and Borneo in 2015 with changes since 1990

Miettinen, J., Shi, C., & Liew, S. C. (2016)

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58

Management and rehabilitation of peatlands: The role of water chemistry, hydrology, policy, and emerging monitoring methods to ensure informed decision making

Monteverde, S., Healy, M. G., O'Leary, D., Daly, E., & Callery, O. (2022)

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59

Methylotrophic methanogenesis in Sphagnum-dominated peatland soils

Zalman, C. A., Meade, N., Chanton, J., Kostka, J. E., Bridgham, S. D., & Keller, J. K. (2018)

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60

Microbial biomass C:N:P as a better indicator than soil and ecoenzymatic C:N:P for microbial nutrient limitation and C dynamics in Zoige Plateau peatland soils

Luo, H., Yu, J., Li, R., Gu, J. D., Luo, L., Zhang, Y., ... & Lan, T. (2022)

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61

Microbial communities after wood ash fertilization in a boreal drained peatland forest

Peltoniemi, K., Pyrhönen, M., Laiho, R., Moilanen, M., & Fritze, H. (2016)

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62

Microbial communities in natural and disturbed peatlands: A review

Andersen, R., Chapman, S. J., & Artz, R. R. E. (2013)

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63

Microbial organic matter reduction regulates methane and carbon dioxide production across an ombrotrophic-minerotrophic peatland gradient

Keller, J. K., Bridgham, S. D., Takagi, K. K., Zalman, C. A., Rush, J. E., Anderson, C., ... & Gabriel, K. N. (2023)

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64

Microbial resource limitation and regulation of soil carbon cycle in Zoige Plateau peatland soils

Luo, L., Zhu, L., Hong, W., Gu, J. D., Shi, D., He, Y., ... & Deng, O. (2021)

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65

Mitigating decomposition in agricultural peatlands: Influence of copper and polyphenol on CNP dynamics and enzyme activities in two contrasting soils

Bourdon, K., Fortin, J., Dessureault-Rompré, J., & Caron, J. (2023)

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66

Modelling optimal water retention in hydrogenic habitats using LIDAR laser data

Karaśkiewicz, J., & Wójcik, R. (2024)

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67

Modelling the influence of mechanical-ecohydrological feedback on the nonlinear dynamics of peatlands

Mahdiyasa, A. W., Large, D. J., Muljadi, B. P., & Icardi, M. (2023)

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68

Modelling the spatial distribution of Natura 2000 habitats across Europe

Mücher, C. A., Hennekens, S. M., Bunce, R. G., Schaminée, J. H., & Schaepman, M. E. (2009)

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69

Natura 2000 public awareness in EU: A prerequisite for successful conservation policy

Kokkoris, I. P., Skuras, D., Maniatis, Y., & Dimopoulos, P. (2023)

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70

Nematode contributions to the soil food web trophic structure of two contrasting boreal peatlands in Canada

Kamath, D., Barreto, C., & Lindo, Z. (2022)

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71

Peatland degradation reduces methanogens and methane emissions from surface to deep soils

Yang, G., Tian, J., Chen, H., Jiang, L., Zhan, W., Hu, J., ... & Dong, F. (2019)

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72

Peatland establishment on mineral soils: Effects of water level, amendments, and species after two growing seasons

Vitt, D. H., Wieder, R. K., Xu, B., Kaskie, M., & Koropchak, S. (2011)

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73

Peatland gully restoration with stone and timber dams (Kinder Plateau, UK)

Howson, T., Evans, M., Allott, T., Shuttleworth, E., Johnston, A., Rees, J., ... & Pilkington, M. (2023)

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74

Peatland pools are tightly coupled to the contemporary carbon cycle

Dean, J. F., Billett, M. F., Turner, T. E., Garnett, M. H., Andersen, R., McKenzie, R. M., ... & Holden, J. (2023)

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75

Peatland protection and restoration are key for climate change mitigation

Humpenöder, F., Karstens, K., Lotze-Campen, H., Leifeld, J., Menichetti, L., Barthelmes, A., & Popp, A. (2020)

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76

Peatland restoration pathways to mitigate greenhouse gas emissions and retain peat carbon

Mander, Ü., Espenberg, M., Melling, L., & Kull, A. (2023)

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77

Persistent high temperature and low precipitation reduce peat carbon accumulation

Bragazza, L., Buttler, A., Robroek, B. J., Albrecht, R., Zaccone, C., Jassey, V. E., & Signarbieux, C. (2016)

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78

Reconstructing human impact on peatland development during the past 200 years in CE Europe through biotic proxies and X-ray tomography

Lamentowicz, M., Mueller, M., Gałka, M., Barabach, J., Milecka, K., Goslar, T., & Binkowski, M. (2015)

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79

Red list of Natura 2000 habitat types of Poland

Perzanowska, J., & Korzeniak, J. (2020)

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80

Redox potential is a robust indicator for decomposition processes in drained agricultural peat soils: A valuable tool in monitoring peatland wetting efforts

Boonman, J., Harpenslager, S. F., van Dijk, G., Smolders, A. J., Hefting, M. M., van de Riet, B., & van der Velde, Y. (2024)

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81

Response of fungal and actinobacterial communities to water-level drawdown in boreal peatland sites

Peltoniemi, K., Fritze, H., & Laiho, R. (2009)

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82

Responses of vegetation and testate amoeba trait composition to fire disturbances in and around a bog in central European lowlands (northern Poland)

Marcisz, K., Lamentowicz, M., Gałka, M., Colombaroli, D., Adolf, C., & Tinner, W. (2019)

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83

Restoration of nutrient-rich forestry-drained peatlands poses a risk for high exports of dissolved organic carbon, nitrogen, and phosphorus

Koskinen, M., Tahvanainen, T., Sarkkola, S., Menberu, M. W., Laurén, A., Sallantaus, T., ... & Nieminen, M. (2017)

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84

Review of peat surface greenhouse gas emissions from oil palm plantations in Southeast Asia

Page, S. E., Morrison, R., Malins, C., Hooijer, A., Rieley, J. O., & Jauhiainen, J. (2011)

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85

Reviewing peatland forestry: Implications and mitigation measures for freshwater ecosystem browning

Härkönen, L. H., Lepistö, A., Sarkkola, S., Kortelainen, P., & Räike, A. (2023)

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86

Rewetting degraded peatlands for climate and biodiversity benefits: Results from two raised bogs

Renou-Wilson, F., Moser, G., Fallon, D., Farrell, C. A., Müller, C., & Wilson, D. (2019)

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87

SAR and InSAR data linked to soil moisture changes on a temperate raised peatland subjected to a wildfire

Hrysiewicz, A., Holohan, E. P., Donohue, S., & Cushnan, H. (2023)

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88

Seasonal changes in Sphagnum peatland testate amoeba communities along a hydrological gradient

Marcisz, K., Lamentowicz, Ł., Słowińska, S., Słowiński, M., Muszak, W., & Lamentowicz, M. (2014)

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89

Shrubification and snow removal have an antagonistic effect on the accumulation of rhizosphere organic carbon components in peatlands

Cai, Y., Yu, X., Zou, Y., Ding, S., & Min, Y. (2024)

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90

Sidestream materials show potential as top-dressed soil improvers for peatland forests

Heiskanen, J., Ruhanen, H., Aro, L., & Rautio, P. (2022)

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91

Site fertility and soil water-table level affect fungal biomass production and community composition in boreal peatland forests

Peltoniemi, K., Adamczyk, S., Fritze, H., Minkkinen, K., Pennanen, T., Penttilä, T., ... & Laiho, R. (2021)

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92

Smouldering fire in a nutrient-limited wetland ecosystem: Long-lasting changes in water and soil chemistry facilitate shrub expansion into a drained burned fen

Sulwiński, M., Mętrak, M., Wilk, M., & Suska-Malawska, M. (2020)

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93

Soil carbon loss from drained agricultural peatland after coverage with mineral soil

Wang, Y., Paul, S. M., Jocher, M., Espic, C., Alewell, C., Szidat, S., & Leifeld, J. (2021)

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94

Soil GHG dynamics after water level rise – Impacts of selection harvesting in peatland forests

Peltoniemi, M., Li, Q., Turunen, P., Tupek, B., Mäkiranta, P., Leppä, K., ... & Mäkipää, R. (2023)

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95

Soil moisture and bacterial carbon limitation regulate the soil organic carbon in mountain peatlands

Xu, Z., Wang, Y., Li, H., Dong, Y., Wang, Z., Liu, Z., ... & Wang, S. (2024)

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96

Spontaneous regeneration of Collembola assemblages in a raised bog after human-induced disturbance

Sławski, M., Stebel, A., & Sławska, M. (2022)

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97

Stable oxic-anoxic transitional interface is beneficial to retard soil carbon loss in drained peatland

Liu, L., Tian, J., Wang, H., Xue, D., Huang, X., Wu, N., ... & Chen, H. (2023)

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98

Sun-induced fluorescence spectrum as a tool for assessing peatland vegetation productivity in the framework of warming and reduced precipitation experiment

Antala, M., Rastogi, A., Cogliati, S., Stróżecki, M., Colombo, R., & Juszczak, R. (2024)

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99

Temperature the dominant control on the enzyme-latch across a range of temperate peatland types

Pinsonneault, A. J., Moore, T. R., & Roulet, N. T. (2016)

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100

The impact of long-term water level draw-down on microbial biomass: A comparative study from two peatland sites with different nutrient status

Mpamah, P. A., Taipale, S., Rissanen, A. J., Biasi, C., & Nykänen, H. K. (2017)

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101

The influence of microtopography on soil carbon accumulation and nutrient release from a rewetted coastal peatland

Wang, M., Liu, H., Rezanezhad, F., Zak, D., & Lennartz, B. (2023)

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102

The late-Holocene relationship between peatland water table depth and summer temperature in northern Poland

Pleskot, K., Apolinarska, K., Cwynar, L. C., Kotrys, B., & Lamentowicz, M. (2022)

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103

The Power of Nature-Based Solutions: How Peatlands Can Help Us to Achieve Key EU Sustainability Objectives

Tanneberger, F., Appulo, L., Ewert, S., Lakner, S., Ó Brolcháin, N., Peters, J., & Wichtmann, W. (2021)

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104

The principal threats to the peatlands habitats, in the continental bioregion of Central Europe – A case study of peatland conservation in Poland

Grzybowski, M., & Glińska-Lewczuk, K. (2020)

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105

The underappreciated potential of peatlands in global climate change mitigation strategies

Leifeld, J., & Menichetti, L. (2018)

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106

Trading wood for water and carbon in peatland forests? Rewetting is worth more than wood production

Makrickas, E., Manton, M., Angelstam, P., & Grygoruk, M. (2023)

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107

Trajectories of ecosystem change in restored blanket peatlands

Alderson, D. M., Evans, M. G., Shuttleworth, E. L., Pilkington, M., Spencer, T., Walker, J., & Allott, T. E. (2019)

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108

Vegetation of temperate inland salt-marshes reflects local environmental conditions

Lubińska-Mielińska, S., Kącki, Z., Kamiński, D., Petillon, J., Evers, C., & Piernik, A. (2023)

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109

Water quality management dilemma: Increased nutrient, carbon, and heavy metal exports from forestry-drained peatlands restored for use as wetland buffer areas

Nieminen, M., Sarkkola, S., Tolvanen, A., Tervahauta, A., Saarimaa, M., & Sallantaus, T. (2020)

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110

Water table depth, experimental warming, and reduced precipitation impact on litter decomposition in a temperate Sphagnum-peatland

Górecki, K., Rastogi, A., Stróżecki, M., Gąbka, M., Lamentowicz, M., Łuców, D., ... & Juszczak, R. (2021)

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111

Waterlogging may reduce chemical soil C stabilization in forested peatlands

Kilpeläinen, J., Peltoniemi, K., Ojanen, P., Mäkiranta, P., Adamczyk, S., Domisch, T., ... & Adamczyk, B. (2023)

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112

Wet peatland utilisation for climate protection – An international survey of paludiculture innovation

Ziegler, R., Wichtmann, W., Abel, S., Kemp, R., Simard, M., & Joosten, H. (2021)

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113

An Assessment of the Multifunctionality of Integrated Buffer Zones in Northwestern Europe

Zak, D., Stutter, M., Jensen, H. S., Egemose, S., Carstensen, M. V., Audet, J., ... & Kronvang, B. (2019)

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114

Catchment-Scale Analysis Reveals High Cost-Effectiveness of Wetland Buffer Zones as a Remedy to Non-Point Nutrient Pollution in North-Eastern Poland

Jabłonska, E., Wisniewska, M., Marcinkowski, P., Grygoruk, M., Walton, C. R., Zak, D., ... & Kotowski, W. (2020)

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115

Creation and functioning of a buffer zone in a blanket peat

O'Driscoll, C., O'Connor, M., de Eyto, E., Rodgers, M., & Xiao, L. (2014)

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116

Forests and peatland habitats - guideline note

Patterson, G., & Anderson, R. (2000)

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117

Good practice guide in peatland afforestation in Ireland

Black, K., Tobin, B., Reidy, B., McKendy, J., O'Reilly, C., Uí Dhubháin, A., ... & Farrel, E. (2001)

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118

Isolation effects on runoff water quality in peatlands impacted by peat extraction and afforestation

Koskinen, M., Sallantaus, T., Vasander, H., Laiho, R., & Laine, J. (2011)

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119

Modeling denitrification in a constructed wetland treating agricultural drainage water with fluctuations in flow and nitrate concentration

Prado, J. A., Dalsgaard, T., Hoffmann, C. C., Espenberg, M., Mander, U., & Kallner, M. (2023)

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120

Rewetting of peatlands for nutrient management in river basins: Can buffer zones be effective?

Verhoeven, J. T., Setter, T., Maltby, E., & Schmid, H. (2006)

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121

The costs and benefits of buffer zones: the impacts of agricultural setback zones on farm costs and values in the Netherlands

Helming, J., Peerlings, J., & Polman, N. (2001)

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122

The potential of rewetted peatlands to act as nutrient buffer zones: Mechanisms, present state and future perspectives

Zak, D., Kronvang, B., Kronvang, B., Cabezas, Á., Petersen, R. J., Audet, J., ... & Hoffmann, C. C. (2018)

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123

Water quality implications of draining forestry in Irish peatland catchments

Finnegan, J., Regan, S., Murphy, P. N., Ritzema, H., & Turley, P. (2019)

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124

Wetland buffer zones for nitrogen and phosphorus retention: Optimal placement and seeding density of Juncus effusus

Walton, C. R., Zak, D., Audet, J., Petersen, R. J., Lange, J., Oehmke, C., ... & Hoffmann, C. C. (2020)

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