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Ecological engineering
Elsevier Science B.V.
Ecological engineering

Elsevier Science B.V.

0925-8574

Ecological engineering/Journal Ecological engineeringSCIISTPEI
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    Reduction,degradation and restoration of Salix alba habitat in the Kerkini National Park,northern Greece;an important habitat for endangered bird species

    P.GanatsasM.TsakaldimiN.Oikonomakis
    13页
    查看更多>>摘要:Floodplain forest ecosystems are considered important ecosystems for their high ecological and economical values and functions.Last decades human activities on floodplains have resulted in a large reduction of these ecosystems or/and high degradation,while in some cases they severely disrupted the regeneration of riparian tree species of the Salicaceae family.The aim of this study is to evaluate the ecology and the current conservation status of the Salix alba floodplain forest in Lake Kerkini National Park(northern Greece),which comprises the main habitat for many endangered bird species,as well as the success of a pilot reforestation project carried out,aiming at habitat restoration.The analysis of the quantification and mapping data showed that this floodplain ecosystem has suffered serious or maybe an irreversible damage during the last decade,and especially after 2016,when the woodland lost half of its area in a very short time period(10 years).Stand structural analysis showed that the woodland consists of only mature trees at a low density,with a great absence of young individuals.However,both the rich natural regeneration recorded in the fenced plots and the performance of planted seedlings in the experimental plots indicate that a Salix woodland regeneration can be succeeded if appropriate silvicultural treatments are applied.The plantings of high(big)size plants of S.alba and simultaneous protection from buffalos grazing,could greatiy contribute to the habitat restoration.
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    • NSTL

    Revitalizing coastal saline-alkali soil with biochar application for improved us crop growth

    Liqiang CuiYuming Liu
    7页
    查看更多>>摘要:The wheat straw biochar has well pronounced effects on the coastal saline-alkali soil remediation/health.The soil water content in saline-alkali soil increased by 12.4-16.6%(2014),18.1-63.4%(2015),23.9-42.6%(2016)with 0,20,40,and 60 t ha-1 application of wheat straw biochar.The different chemical properties like pH,CEC(cation exchange capacity)and SOM(soil organic matter)ranged between 0.2 and 3.1,6.7-82.0% and 12.6-139.6%,respectively with biochar application during tnree years of field experiment.The TSS(total soluble salt)of different biochar treatments in the soil decreased by 15.9-23.7%(2014),28.6-54.6%(2015),11.7-42.2%(2016)compared with control.The exchangeable/soluble cations like Calcium(Ca),Magnesium(Mg),chlorine(Cl)and Sodium(Na)concentration showed the similar trend as that of TSS.The soil soluble potassium(K)concentration significantly increased by 82.5-233.1%(2014),65.3-228.2%(2015),19.2-233.8%(2016)compared with control,which mainly originated from biochar.The wheat straw biochar application improves the coastal saline-alkali soil health and environment,which promoted the crop growth.The biochar amendment improved the soil properties with decrease in the salt concentration that showed biochar potential to improve/remediate the saline alkali soil.
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    • NSTL

    Outplanting establishment within a contaminated and nonnative invaded semiarid desert riparian corridor

    Lindsay P.ChiquoineScott R.AbellaTina Greenawait
    10页
    查看更多>>摘要:Protected riparian ecosystems crucially important for wildlife habitat and maintaining water resources are often compromised by land use activities,such as mining,in or surrounding protected areas,creating challenges for conservation.Legacies of land use,contamination,and plant invasions can reduce vegetation community quality and hinder conservation and restoration efforts.In a semiarid riparian ecosystem in a US national monument,we conducted experimental outplantings to assess restoration techniques on native perennial species among sites with variable conditions and disturbance histories.Atriplex canescens and Encelia frutescens seedlings were planted at two coarse-textured soil sites that differed in surface exposure(sparse versus moderate woody perennial canopy cover)and disturbance histories(downstream from mine wastes and activities).For both species,exposed soils closer to mine wastes and with several years of active nonnative plant treatments had higher survival,although all E.frutescens died by one year after planting.After two years,A.canescens survival was 87.5%,or 50% higher,than survival in less exposed soils farther downstream from mine wastes.For four native understory perennials,Bothriochloa barbinodis,Bothriochloa saccharoides,Brickellia floribunda,and Tridens muticus,we tested the effects on planting microsite survival of two supplemental restoration treatments,partial buried container irrigation and tube shelters.For the first three species,planting microsites were located at sites with exposed coarse-textured soils(one site)and fine-textured(two sites)soil that differed in exposure.Tridens muticus was planted at the two fine soils sites,but most plants had died by five months after planting.Two years after planting,shelters improved survival of B.barbinodis,B.saccharoides,and B.floribunda by 20.8,29.2,and 6.25%,respectively,and improved the probabilities of survival by 30.3,40.4,and 21.3%,respectively.Survival differed among sites,with more plant microsites surviving in fine soils with lower surface exposure,and survival among supplemental treatments differed among sites and species.Outplanting failures often occur within the first few months to years after planting.Assessing short-term plant establishment is important to determine how plants will respond to site conditions,which are more difficult to manage than species selection and supplemental treatments.Continuing to monitor outplants and natural colonization may inform what species will remain viable options for riparian restoration as site and climate conditions change over time.
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    • NSTL

    Ecological indicators of passive restoration in South Brazil's Atlantic Forest areas with former Pinus taeda L.plantations

    Guilherme Diego FockinkCharline ZangalliEmanoeli de Oliveira
    10页
    查看更多>>摘要:The use of suitable ecological indicators for assessing and monitoring passive restoration is essential to understand the dynamics of natural regeneration and the restoration course.However,most developed restoration protocols in Brazil are specifically intended for monitoring active restoration.Only a few studies are addressing ecological indicators for passive restoration.In this context,we tested indicators defined by a monitoring protocol(SMA Resolution 32/2014)formulated for active restoration,along with other indicators of richness,diversity,and functional aspects of natural regeneration.The evaluations took place in sites under passive restoration in different age classes(between three and twelve years old)and in a secondary riparian forest(reference ecosystem)inside the Mixed Ombrophilous Forest(Araucaria Forest)in South Brazil.Those sites had previously been covered and degraded by Pinus taeda L.plantations.We compared the evaluated sites with the intermediate and final reference values proposed by the protocol to define the suitability of the tested indicators and the forest restoration process.Results showed that the canopy cover,density,and richness of regenerants are suitable to evaluate areas under passive restoration with a history of degradation by forestry.However,it is necessary to adapt the protocol's reference values.We further suggest the inclusion of other indicators related to the ecosystem's structure and functionality as the herbaceous cover,dispersion syndrome,life form,and the ecological group of species,as well the definition of indicator species for the different restoration levels.Despite the low similarity in composition,structure,and functional aspects with the reference ecosystem,the passive restoration showed potential to perpetuate the successional course in the studied areas.
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    • NSTL

    Impact of Spartina alterniflora invasion on evapotranspiration water loss in I phragmites australis dominated coastal wetlands of east China

    Taitiya Kenneth YugudaYueming WuZhanrui Leng
    18页
    查看更多>>摘要:A comparative analysis of co-existing invasive and native wetland plants is a practical approach to exploring exotic plant invasiveness.Spartina alterniflora is an invasive C4 grass,prevalent in China's coastal wetlands and other parts of the world,posing a risk to the hydrological cycle.While the crop coefficient Kc and evaporative water loss of the invasive S.alterniflora are still considerably unexplored,we utilized field measurements and a modeling technique to evaluate water loss to Evapotranspiration ET in marshes with S.alterniflora and P.australis.Changes in surface resistance,canopy height,and the technique used to calculate net radiation from incoming solar radiation have all been shown to influence the Penman-Monteith methodology for estimating ET.Overall,S.alterniflora surpassed P.australis in leaf area index LAI,ET,crop coefficient Kc,peak net photosyn-thetic rate,and growing season.Daily ET values in both plants ranged from 0.98 to 6.35 mm/day and 1.91 to 8.16 mm/day during the monitoring period.According to regression analysis,the key driving factors of ET from both plant communities throughout the growing season are net radiation,soil moisture,relative humidity,air temperature,and surface temperature.These findings highlight the necessity of precisely determining these parameters based on site-specific data instead of depending on empirical models developed mainly for crops and forests.Given the mean ET rates found in this study,S.alterniflora invasion in China currently accounts for-4.3 x 106 m~3 day-1 of water loss to ET,posing a severe threat to the availability of water resources in China's wetlands.Our findings contribute to a better understanding of the link between plant invasiveness and water loss in wetlands,offering stakeholders a benchmark for achieving future goals and plans related to the utilization of wetland water resources worldwide.
      原文链接:
    • NSTL

    Fish'habitat area and habitat transition in a river under ordinary and flood flow

    Hsuan-Ju HungWei-Cheng LoChing-Nuo Chen
    18页
    查看更多>>摘要:In the past,river management was mostly people-oriented(disaster prevention),focusing on development and utilization,and often neglecting the habitat of river organisms,which led to the destruction of river ecology.Moreover,in recent decades,river environment restoration has an area of focus,and the importance of environmental protection and ecological balance has gained popularity.The initial step in river restoration is to increase habitats,while concurrently understanding habitat distribution and habitat changes.Ordinary flow is generally very small,but during floods,river flow surges,and habitat changes become more apparent.In this study,Two-Dimension River Habitat Transition Model was developed and used to simulate the fish habitat of ordinary flow and flood flow in Zengwen river.The weighted usable area(WUA)and the percent usable area(PUA)suitable for fish survival under different flow discharge were quantified.In addition,the fish habitat distribution and habitat Transition under the ordinary flow and flood flow in Zengwen river were discussed.The simulation results indicated that the fish habitat distribution is within the main channel under ordinary discharge,while during floods,the river overflows to the floodplain,and the habitats of fish are mostly distributed over the flood plains on both sides of the main channel.Under this case,there are less fish habitats in the main channel indicating that as the amount of flow in the river increases,WUA increases,while PUA decreases.
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    • NSTL

    Spatiotemporal evolution scenarios and the coupling analysis of ecosystem health with land use change in Southwest China

    Weijie LiYong WangShiyou Xie
    14页
    查看更多>>摘要:Ecosystem degradation caused by Land use/cover change(LUCC)in the process of rapid urbanization has attracted extensive attentions.However,the spatiotemporal dynamics of future ecosystem health(EH)and its coupling relationship with land use has not been well analyzed.In this study,based on future land use scenarios,we used the vigor-organization-resilience-services assessment framework to measure the ecosystem health level in Southwest China and analyzed its spatial-temporal characteristics under the four scenarios in 2010,2050 and 2100.The results showed that areas with high health level(i.e.,well and relatively well)accounted for the largest proportion across all the scenarios,indicating the ecosystem in Southwest China was in a good state.However,higher population and higher urban expansion scenarios will lead to a significant decline in EH in most counties,especially in rapidly urbanization areas.The ecological sensitivity method was applied to explore the response of ecosystem health to change in land use intensity.The results found that about 80% counties were at moderate sensitivity level under the four scenarios,as only counties with high ecological sensitivity were concentrated in western Sichuan,southwest Yunnan and the periphery of large cities.The coupling coordination analysis between ecosystem health and land use intensity was employed to discern the counties with low-level coordination in EH and land use management.Results showed that the degree of coordination in western Sichuan was low and its change remained stable across all the scenarios,while the coordination degree was high and its change relatively intense in Sichuan basin and western Guizhou from 2010 to 2100.This study can provide effective guidance for ecosystem management and the formulation and implementation of land use policies.
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    • NSTL

    Ecosystem-based approaches to develop a monitoring framework for restoring the transitional lagoon ecosystem of Pulicat,India

    Harini SanthanamShalini DhyaniSudip Kumar Kundu
    11页
    查看更多>>摘要:Monitoring habitat fragmentation(HF)for economically significant species at close-ranges can provide crucial data for deriving the indicators of the Sustainable Development Goals(SDG)14.4 for complex socio-ecological systems such as coastal lagoons.However,exclusivity of local-scale processes causing fragmentation,differences in the monitoring approaches,differential interpretations of resilience to disasters,as well as mismatches in reporting outcomes of scientific studies indicate the need for a focussed monitoring framework for transitional ecosystems.Using the example of penaeid prawns(Peneaus sp.),an economically important species from Pulicat lagoon,(an intertidal ecosystem on the east coast of India),the present work presents the development of a practical framework using selective but effective indicators of HF.The overall approach involves establishment of baselines,causal loops,triggering transformations as well as adaptive responses as per the scale and magnitude of HF.In the context of deriving baselines(Level 1),in-situ indicators such as salinity,turbidity,chlorophyll-a concentrations and distribution of seagrass which directly influence the habitat selection are proposed.Derived datasets on nutrient budgets,changes in abundances,Representative Concentration Pathways scenarios 4.5 and 8.5 for climate-induced changes are proposed as external forcings to understand the causative parameters(Level 2).Monitoring extents of tidal influence in ecosystem-based approach for disaster risk reduction(EcoDRR)is proposed to evaluate triggers and adaptive responses(Level 3).The EcoDRR based framework presented has the potential to contribute towards policy-targeted transformative approaches relevant to India's National Fisheries Policy 2020 as well as SDG 14,cross-correlated with targets of other SDGs.
      原文链接:
    • NSTL

    Effect of surface area to catchment area ratio on pollutant removal efficiency in vegetation-type facilities

    Jiwon LeeSungwoo BaeWoo Hyoung Lee
    7页
    查看更多>>摘要:In Korea,non-point source emissions have been investigated since the early 1980s,and the proportion of non-point source sources as a source unit for each land use has been evaluated based on actual measurement data following the implementation of the Total Water Pollution Control System.Recently,a lot of research has been done on the application of LID(1qw impact development)technology that can effectively manage nonpoint pollution and rainfall runoff.The ratio SA/CA(surface area/catchment area)is one of the design factors for LID facilities.In this study,the major objective is to analyse relationship between the SA/CA ratio and efficiencies of runoff reduction and pollutant removal.To do this,long-term monitoring has been conducted for three-years at LID facilities installed at a domestic LID pilot project complex.The type of LID facilities analyzed in this study are grassed swale,vegetative filter strip,tree filter box,planter box,and bioretention.As a result of logarithmic relation analysis,efficiencies of pollutants removal tended to increase with increasing SA/CA ratio.Among the pollutants,TP(total phosphorus)had the highest correlation with R value of 0.9365.When SA/CA is under consideration as a design factor,this research data can be used as input for the designer for calculating the specific criteria and scope.
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    • NSTL

    Implications of realized niche for the conservation and creation of Potentilla anserina habitat

    So Ho KimJae Geun Kim
    11页
    查看更多>>摘要:Potentilla anserina is a perennial herb native to South Korea and its distribution is limited to coastal lagoons.However,the population of P.anserina is threatened by anthropogenic disturbances and climate change.To identify the optimal habitat and environmental characteristics of P.anserina for conservation,we investigated the major environmental factors contributing to the growth and reproduction of P.anserina using a field survey.A total of 122 quadrats were classified into three groups according to the vertical distance(near,middle,and far)from the lagoon water body and surveyed in May and August of 2020.In all lagoons,the coverage(May:41.8 ± 5.4%,August:23.4 ± 4.4%),height(May:21.7 ± 1.6 cm,August:25.4 ± 3.0 cm)and density(May:34 ± 4 individuals/m~2,August:47 ± 10 individuals/m~2)of P.anserina were the highest in the middle group.The redundancy analysis of the growth characteristics of P.anserina and environmental traits revealed that relative light intensity,soil moisture content,and soil Na~+,K~+,and Ca~(2+)content were major factors affecting the growth of P.anserina.The habitat of P.anserina requires adequate soil moisture considering the distance from the water body.It is recommended to introduce a P.anserina zone at a distance of 2-3 m from the water body,where the width of transition zone between lagoon water body and terrestrial plants is about 5 m,and at a distance of 10 m from the water body where the width of transition zone is approximately 20 m in gentle slope.Loamy sand soil consisting of more than 50% sand and 4-38% of silt is a suitable habitat.A proper relative light intensity(about 42%)is required for the prevention of tall and dense companion species.In addition,moderately saline soil(soil EC:820.8-882.6 uS/cm;Na~+:1738-1927 mgAg)can provide a competitive habitat for P.anserina.
      原文链接:
    • NSTL