The mechanistic basis of changes in community assembly in relation to anthropogenic disturbance and productivity

Anthropogenic disturbance often causes changes in communities. However, the mechanistic basis of these changes remains elusive. As all patterns in community ecology can be understood as a result of four processes (speciation, selection, drift, and dispersal), the effect of disturbance should depend on how disturbance disrupt these processes. We studied the effects of disturbance and productivity on species richness, community composition, and community dispersion (i.e., variation in community composition) in the vegetation of 120 boreal peatlands using null-model approach to determine whether community assembly processes differ between pristine and disturbed sites. Sites represented three p…

Combining spatial prioritization and expert knowledge facilitates effectiveness of large-scale mire protection process in Finland

Conservation resource allocation involves a complex set of considerations including species, habitats, connectivity, local to global biodiversity objectives, alternative protection and restoration actions, while requiring cost-efficiency and effective implementation. We present a national scale spatial conservation prioritization analysis for complementing the network of protected mires in Finland. We show how spatial prioritization coupled with regional targets and expert knowledge can facilitate structured decision-making. In our application, discussion between experts was structured around the prioritization model enabling integration of quantitative analysis with expert knowledge. The u…

The Effects of Peatland Restoration on Water-Table Depth, Elemental Concentrations, and Vegetation: 10 Years of Changes

We studied the effects of restoration on water-table depth (WTD), element concentrations of peat and vegetation composition of peatlands drained for forestry in southern Finland. The restoration aimed to return the trajectory of vegetation succession toward that of undisturbed systems through the blockage of ditches and the removal of trees. Permanent plots established on a bog and a fen were sampled 1 year before, and 1, 2, 3, and 10 years after the restoration. The restoration resulted in a long-term rise of the water-table in both peatlands. Ten years after restoration, the mineral element concentrations (Ca, K, Mg, Mn, and P) of peat corresponded to those reported from comparable pristi…

Ravinnetason ja ojituksen vaikutus suokasvillisuuden monimuotoisuuteen ja lajikoostumukseen

Lajistollisessa monimuotoisuudessa on havaittavissa ajallista ja paikallista vaihtelua, joka on jo vuosisatojen ajan innoittanut ekologeja selvittämään lajirikkauden määrittäviä tekijöitä. Muun muassa pinta-alan, elinympäristön heterogeenisyyden, energian ja resurssien saatavuuden sekä erilaisten häiriöiden on havaittu vaikuttavan lajistolliseen monimuotoisuuteen. Osa monimuotoisuuteen vaikuttavista prosesseista on yhä huonosti tunnettuja, ja yksittäisen tekijän vaikutusta voi olla vaikea tulkita, sillä eri tekijät ovat keskenään vuorovaikutuksessa. Tämän tutkimuksen tavoitteena oli selvittää suokasvillisuusyhteisöjen avulla, vaikuttavatko resurssit tai häiriö (1) yhteisön lajimäärään (alfa…

Soiden ennallistamisen suoluonto-, vesistö-, ja ilmastovaikutukset. Vertaisarvioitu raportti.

Tämän selvityksen tarkoituksena on tuottaa kirjallisuuskatsaus ja siihen pohjautuvia johtopäätöksiä soiden ennallistamisen ilmasto-, vesistö- ja suoluontovaikutuksista. Selvitys pyrkii erityisesti kasaamaan yhteen uusimpia tutkimustuloksia ja aineistoja ennallistamisen vaikutuksiin liittyen ja toisaalta muodostamaan kokonaiskuvan laaja-alaisempaa soiden ennallistamisstrategiaa silmällä pitäen. Suoekosysteemit reagoivat kokonai-suutena varsin hyvin perinteisiin ennallistamistoimiin. Ennallistaminen ei kuitenkaan ole ongelmatonta, sillä ennallistamistoimet eli yleensä kaivin- ja metsäkonetyöt sekä ennallistamisen jälkeisen alkuvaiheen voimakkaat ekosysteemin muutokset voivat aiheuttaa yhteisk…

Recovery of plant communities after ecological restoration of forestry-drained peatlands

Ecological restoration is expected to reverse the loss of biodiversity and ecosystem services. Due to the low number of well-replicated field studies, the extent to which restoration recovers plant communities, and the factors underlying possible shortcomings, are not well understood even in medium term. We compared the plant community composition of 38 sites comprising pristine, forestry-drained, and 5 or 10 years ago restored peatlands in southern Finland, with special interest in understanding spatial variation within studied sites, as well as the development of the numbers and the abundances of target species. Our results indicated a recovery of community composition 5–10 years after re…

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

Degradation of ecosystems is a great concern on the maintenance of biodiversity and ecosystem services. Ecological restoration fights degradation aiming at the recovery of ecosystem functions such as carbon (C) sequestration and ecosystem structures like plant communities responsible for the C sequestration function. We selected 38 pristine, drained and restored boreal peatland sites in Finland and asked i) what is the long-term effect of drainage on the peatland surface layer C storage, ii) can restoration recover ecosystem functioning (surface layer growth) and structure (plant community composition) and iii) is the recovery of the original structure needed for the recovery of ecosystem f…

Ekosysteemin ennallistamisen ja luonnonhoidon ekologia

The effects of long-term drainage and subsequent restoration on water table level and pore water chemistry in boreal peatlands

Summary Degradation by drainage threatens biodiversity and globally important peatland ecosystem functions such as long-term carbon sequestration in peat. Restoration aims at safeguarding peatland values by recovering natural hydrology. Long-term effects of drainage and subsequent restoration, especially related to within-site variation of water table level and pore water chemistry, are poorly known. We studied hydrological variation at 38 boreal Sphagnum peatland sites (pristine, drained and restored) in Finland. The average water table level was significantly lower at Drained than Pristine sites especially near the ditches. We also observed large pore water chemical differences between Dr…

Restoring ecosystem structure and functions : results from Sphagnum peatlands degraded by forestry drainage

Metsäojituksen ja ennallistamisen vaikutukset suokasvillisuuteen Seitsemisen kansallispuistossa

Tässä tutkimuksessa analysoitiin Seitsemisen kansallispuiston ennallistetuilta ja luonnontilaisilta soilta kerättyä kasvillisuusnäytealaseurannan aineistoa. Tavoitteena oli selvittää, minkälaisia vaikutuksia metsäojituksella on ollut soiden kasvillisuuteen ja onko ennallistamalla onnistuttu korjaamaan noin 30 vuoden ojituskauden aikana tapahtuneita muutoksia. Tutkimuksessa käytetty aineisto kerättiin 4:ltä luonnontilaisille sekä 14:ltä ojitetuille ja myöhemmin ennallistetuille soille sijoitetulta näytealalta. Ojitettujen soiden kenttä- ja pohjakerroksen kasvillisuus inventoitiin ensimmäisen kerran kunkin suon ennallistamisen aikoihin (noin 30 vuotta ojittamisen jälkeen) ja toisen kerran 1-1…

Impact of drainage and hydrological restoration on vegetation structure in boreal spruce swamp forests

Drainage to increase timber production is a major cause of degradation of boreal peatlands in Europe. As a consequence of the forestry drainage, the area of pristine spruce swamp forests has declined drastically in northern Europe over the past century. In restoration by rewetting, drainage ditches are blocked to restore the pre-disturbance hydrological regime and, ultimately, the biodiversity values and ecosystem functions of pristine spruce swamp forests. In this study, we quantify vegetation recovery and examine mechanisms behind the changes in plant community composition. For this, we surveyed the understorey vegetation of 9 undrained, 9 drained and 18 rewetted spruce swamp forest sites…

Elinympäristöjen tilan edistäminen Suomessa : ELITE-työryhmän mietintö elinympäristöjen tilan edistämisen priorisointisuunnitelmaksi ja arvio suunnitelman kokonaiskustannuksista

Kestävä luonnonvarojen käyttö on perusta sekä ihmisen että luonnon hyvinvoinnille. Tähän mietintöön on koottu Elinympäristöjen tilan edistämisen (ELITE) työryhmän työn tulokset. Työ edistää osaltaan luonnonvarojen käytön kestävyyttä antamalla suuntaviivoja luonnon monimuotoisuuden turvaamiseen Suomen metsissä, soilla, perinnebiotoopeilla, maatalousalueilla, kallioilla, tuntureilla sekä rannikolla. Osin tarkastelussa mukana olivat myös kaupunkiympäristöt ja sisävedet. Varsinaisen tarkastelun ulkopuolelle jätettiin rannikkovesien ulkopuoliset meret. Elinympäristöjen tilan edistämisen toimenpiteet voivat käsittää suojelua, luonnonhoitoa tai perinteisellä tavalla ymmärrettyä ennallistamista. To…

Ojituksen ja ennallistamisen aiheuttamat muutokset kasvilajistossa ja –yhteisöissä

Hydrology LIFE - conservation of peatlands and small water bodies in Finland

Wetlands are biodiversity hotspots and provide many globally important ecosystem services, such as carbon storage and control of water circulation. However, they are badly degraded by human land-use and are, therefore, among most threatened habitats in Europe, for instance. A 20-year experience on wetland restoration in Finland will now be utilized in Hydrology LIFE project, that safeguards peatlands, small water bodies and important bird lakes in 103 Finnish Natura 2000 areas. Majority of peatlands around the globe are severely degraded by human land-use. The major cause for degradation in Finland is forestry-drainage, including also areas within N2000 sites. The blocking of ditches and re…

Spatial conservation prioritization of Finnish forests for more sustainable land use planning

Accelerating use of natural resources causing harmful impacts on biodiversity, together with limited resources for conservation, highlight the importance of developing cost-effective, ecologically sustainable land use planning approaches. In Finland, a recent conservation project “METSO - Forest Biodiversity Programme for Southern Finland” tackles the challenge of integrating conservation with sustainable forestry to halt the decline in forest species and habitats. A core element in METSO is the spatial conservation prioritization of forests to supplement the current protected area network, based on concepts of complementarity, and voluntarity. These analyses pave way towards new practices …

Ranking Natura 2000 habitats and Natura 2000 areas for nature

We ranked 1 541 Finnish Natura 2000 areas and their 69 different habitat types for ecological restoration and nature management based on their potential for cost-effective ecosystem improvement. We did it by Zonation software and its principles: complementarity, connectivity, condition and cost-effectiveness. We had biodiversity data (GIS: location and current state of 67 N2000 habitats and threatened species) and expert knowledge of improvement methods, effects and costs. As results we got maps, curves of trade-offs and also a ranking list of Natura 2000 areas. peerReviewed

The mechanistic basis of changes in community assembly in relation to anthropogenic disturbance and productivity

In the human-dominated world the natural drivers of species diversity, such as productivity and habitat heterogeneity, have been accompanied by anthropogenic disturbance resulting in increased extinction rates at global scale. However, decrease in species richness does not necessarily result in local decreases in species richness. Moreover, species richness provides limited information on processes that cause changes within and between communities, and the mechanistic basis of these changes remains elusive. As all patterns in community ecology can be understood as a result of four processes (speciation, selection, drift, and dispersal), the effect of disturbance should depend on how disturb…