期刊,Ecological engineering 2022年178卷期_国家学术搜索

期刊信息/Journal information

Ecological engineering

Elsevier Science B.V.

主办单位：Elsevier Science B.V.

国际刊号：0925-8574

Ecological engineering/Journal Ecological engineeringSCIISTPEI

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Concrete seawalls: A review of load considerations, ecological performance, durability, and recent innovations

Hosseinzadeh, NimaGhiasian, MohammadAndiroglu, EsberLamere, Joel...

14页

查看更多>>摘要：Increasing frequency of extreme weather events, driven by climate change, coupled with growing population densities, have contributed to an increasing demand for coastal structures to protect and stabilize shorelines. Concrete seawalls are a common category of coastal protection structures, designed with the primary objectives of absorbing wave action, preventing coastline erosion, and alleviating flooding. Much research has been carried out on improving concrete seawall performance. This work is a review of the current state-of-the-art in concrete seawalls focusing on design aspects including wave loading and innovative seawall designs, ecological considerations, and durability performance. Different conventional seawalls and their advantages and disadvantages are reviewed. Wave loads on seawalls have received significant attention; and multiple approaches for the quantification for the different types of loads are presented. However, wave load quantification remains a challenging task, especially for novel designs, and performance under load for such designs must be quantified through testing in wave tanks. Drawing inspiration from natural shorelines, modification of surface complexity at a multitude of scales can improve the otherwise poor ecological performance of seawalls. Ecological performance can also be improved by the incorporation of natural materials or structures in seawalls although the exact influence of concrete and other material chemistry on benthic diversity is unclear. The corrosion of the steel is a major durability concern, and the use of non-corrosive reinforcement can increase seawall durability toward corrosion. Other durability concerns include alkali silica reaction and sulfate attack, which can be mitigated through proper mixture design, including through the use of supplementary cementitious materials. Examples of innovative seawall designs and systems which have the capability to outperform conventional seawalls are discussed. Advances in structural design, ecological engineering, and infrastructure materials science will drive the development of multi-functional seawalls which are sustainable, durable, and resilient.

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NSTL
Elsevier

Analysis of biodiversity attributes for extensive vegetated roofs in a semiarid region of central Argentina

Caceres, NataliaRobbiati, Federico O.Hick, Emmanuel C.Suarez, Mario...

11页

查看更多>>摘要：Vegetated roofs (VRs) contribute to the resilience of cities by providing multiple ecosystem functions. A wide range of these benefits depends on the plant layer. Here, we hypothesized that increasing biodiversity attributes (i.e., composition, structural, and functional) in VRs will improve their performance under the climate conditions of semiarid regions. We aimed to (i) characterize functional groups of eight species assessed from key functional traits, (ii) evaluate species performance through survival and coverage, comparing biodiversity attributes from mono to polyculture treatments, (iii) analyze the relationship between performance with biodiversity attributes, and (iv) systematize and rank the treatments using an index to select those with the best performance and to recommend them for VRs in semiarid regions. We expect those treatments with higher biodiversity attributes will show better performances than simpler ones. Functional traits as indicators of ecosystem functions of eight species and four life-forms (succulents: Sedum acre, S. lineare, S. reflexum, creeping herbs: Phyla nodiflora, Glandularia x hybrida, tall forb: Grindelia cabrerae, and grasses: Eustachys distichophylla, and Nassella tenuissima) were evaluated through a trial using 22 microcosms during a 12-month experimental study. A principal component analysis and a cluster analysis were used to detect functional groups according to leaf and plant height traits. We used the Kaplan-Meier analysis to assess species survival among the treatments. Final coverage and growth increment (and their coefficients of variation) were used to construct the performance index. The PCA and CA determined five functional groups: I) succulents; II) creeping herbs; III) N. tenuissima; IV) E. distichophylla, and V) G. cabrerae. Four species showed significantly differences in survival rates among the treatments (p < 0.05), and six treatments were characterized as the best ones: with the highest coverage (>93%) and growth increment (81%), and with low CVs. Although some monoculture (Sedum spp., P. nodiflora and, E. distichophylla) reached comparable index values with respect to mixed microcosms, for VRs we recommend those plant mixtures combining biodiversity attributes because they provide both more ecosystem services and higher chances of survival and phenological complementarity in the long term.

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NSTL
Elsevier

Increasing the resistance of Mediterranean extensive green roofs by using native plants from old roofs and walls

Esfahani, Razieh EbadatiPaco, Teresa A.Martins, DianaArsenio, Pedro...

11页

查看更多>>摘要：Background: While the use of extensive green roofs (EGRs) is increasing worldwide, Mediterranean conditions complicate EGR design due to their long, dry summers with intense solar radiation. Aim: To inform sustainable EGR design for Mediterranean regions, we explored the use of resilient, drought tolerant species in experimental EGRs. Methods: We selected four native species that are known to spontaneously establish themselves on urban structures, including roofs, in Lisbon, Portugal: Antirrhinum linkianum, Asphodelus fistulosus, Centranthus ruber, and Sedum sediforme. We evaluated growth and aesthetic value under two irrigation treatments (100 and 60% ETo, reference evapotranspiration). The presence of moss covering for the lower level of irrigation was also evaluated. Results: Antirrhinum linkianum presented the highest number of flowers, most extended seed production duration, and the highest area coverage. Irrigation level did not significantly affect flowering and green coverage for any of the species. Conclusion: Antirrhinum linkianum is an ideal starting species for Lisbon EGRs. Irrigation costs can be reduced by starting at a 60%ETo irrigation level.

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NSTL
Elsevier

Dynamics of self-regulatory processes in a lowland river due to seasonal changes in certain hydro-ecological and water quality factors

Pregun, Csaba Zsolt

9页

查看更多>>摘要：This study establishes an evaluable system of relationships among the hydromorphological and water quality factors of a temperate, lowland, regulated watercourse. The aim is to investigate the effects of the environmental factors that cause temporal changes in planktonic algal communities. Measured, real-time and modelled water quality and hydrological data sets were compared during the analysis. It is observed that the same factor can have both positive and negative effects in different periods. Different physiological and morphological characteristics determine environmental tolerance. Chlorophytes, which utilize the red light living in the upper layer, closely correlate with water mirror width (top width). Diatoms need dissolved and suspended silicon and are therefore related to the factors that cause sediment mixing and increased salinity (EC). Cyanobacteria and dinophytes are also able to utilize organic matter (mixotrophy and heterotrophic photosynthesis, respectively). They multiply easily when the organic nutrients that are abundant. In the absence of inorganic nitrogen compounds, cyanobacteria are preferred because of their ability to directly or indirectly take up the N-2 molecule. Hydraulic changes have a significant impact on water quality and life processes, including biodiversity.

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NSTL
Elsevier

Influence of input litter quality and quantity on carbon storage in post-mining forest soil after 14 years of reclamation

Singh, PreetiGhosh, A. K.Kumar, SantoshKumar, Manoj...

11页

查看更多>>摘要：Reclamation of post mining soils by planting trees is of great research interest due to its potential to stabilize mine soils and sequester atmospheric carbon (C). However there are knowledge gaps regarding the effect of different litter quality and biomass on the C sequestration vis-a-vis molecular characterization of soil organic carbon (SOC) in reclaimed mine soils. Hence, an experiment was conducted to determine the effect of litter quality, quantity, and leaf litter decomposition rate on the quality and quantity of carbon sequestered after 14 years of restoration by three representative plant species (Azadirachta indica, Dalbergia sissoo, and Gmelina arborea) which have been frequently used for revegetation of post-mining sites in India. Results indicate that significant amounts of carbon accumulated under different tree species (47.44, 42.34, and 20.17 Mg C ha? 1 under A. indica, D. sissoo, and G. arborea plantations resepctively) as compared to recent dump. Decomposition rate constant had a significant relationship with C/N ratio and nitrogen (N) content and therefore tree species (A. indica) with high C/N, lignin/N ratios, and low N content had a significantly lower decomposition rate constant thereby sequestering more carbon, making it the tree species of choice. Among the three tree species studied, G. arborea witnessed the highest litterfall (4635 kg ha(-1) yr(-1)) but had the lowest SOC stock due to the highest decomposition rate constant (0.00229), which established the fact that composition of leaf litter rather than total litterfall played a significant role in carbon sequestration. Furthermore, spectroscopic methods (UV-vis and FTIR) could clearly distinguish differences in functional groups and molecularity of the humic acids derived from plant species of different resource quality and hence can be effectively used in studying the quality of C sequestered.

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NSTL
Elsevier

Long-term assessments are critical to determining persistence and shoreline protection from oyster reef nature-based coastal defenses

La Peyre, Megan K.Buie, Sarah Catherine LeblancRossi, Ryann E.Roberts, Brian J....

11页

查看更多>>摘要：Nature-based coastal defense using bivalve reefs provides a potentially self-sustaining approach for regions facing high coastal land loss, relative sea level rise and increasing frequency and intensity of storms. Success of such nature-based coastal defense depends on the reef-building species' life history, habitat requirements, and ability to thrive through short-term and longer-term environmental variation, yet few projects have reported on outcomes beyond the first few years. In coastal Louisiana, USA, Crassostrea virginica (oyster) is an ecosystem engineer, creating self-sustaining, vertically accreting reefs that also provide ecosystem services. Here, we examine the short (< 3 years) and medium (> 10 years) term outcomes of experimental reefs constructed in 2009 for nature-based coastal defense in a Louisiana, USA estuarine lake. Oyster reef density, demography, along with adjacent salt marsh, and shoreline movement were compared at six fringing shoreline reefs and paired reference sites over the first three years post-construction (2009-2011), and a decade later (2019-2020). Oyster density measured in 2019-2020 (< 60 ind m(-2)) was less than 10% of density measured during 2009-2011 (> 1000 ind m(-2)). This density difference largely reflected a lack of new recruits and small oysters (< 75 mm shell height) in later samples, with adult oyster densities similar between 2011, 2019 and 2020. Lack of smaller oysters in recent sampling likely reflected the impact of multiple extended low salinity events in this region in recent years, including the record-breaking low salinity in 2019. No differences in shoreline characteristics were detected in marsh vegetation, soil properties or nutrient concentrations between reef and reference sites during early and later years. Similarly, shoreline erosion at both reef and reference sites immediately post-construction, and 10 years later, was high (~1 m y(-1)) indicating a lack of shoreline protection from these reefs. These findings highlight the need to consider both current and future conditions, including the effect of extreme years, when implementing nature-based coastal defense. On the other hand, the persistence of reproductive-sized oysters on the reef 10 years post creation, indicate reef resilience and potential for reef development and shoreline benefits, should better site conditions return in future years. Determining restoration success within variable and dynamic environments requires frequent monitoring which is required to understand responses to short and longer-term environmental variation.

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NSTL
Elsevier

Potential of constructed wetlands to reduce nitrate pollution in agricultural catchments

Bauwe, AndreasEckhardt, Kai-UweLennartz, Bernd

9页

查看更多>>摘要：Nitrate (NO3-) concentrations and loads are still above ecologically acceptable levels in many open waters, including coastal seas. Agricultural measures aimed at reducing the nitrogen (N) surplus in fields usually only have an effect in the long term. A short-term reduction of N pollution can be achieved through technical solutions such as surface-flow constructed wetlands (SFWs). We analyzed the effect of SFWs to reduce nitrate-nitrogen (NO3--N) loads in the tile-drained agricultural Warnow river basin (approx. 3000 km(2)) in northeastern Germany. The aim of the study was to transfer the results from individual SFWs to the scale of the river basin. For this purpose, an eco-hydrological model (Soil and Water Assessment Tool) was used to reproduce streamflow and NO3--N loads on a monthly basis for the basin outlet and six subbasins. Measured water and compound fluxes depicted well with the model, so that we could conduct a scenario analysis. 97 locations for the establishment of SFWs in tile-drained areas throughout the river basin were identified and integrated into the model environment. The results indicate that the NO3--N loads for the entire basin could be reduced from 902,200 kg yr(-1) to 842,900 kg yr(-1), which corresponds to a NO3--N reduction of 6.6%. NO3--N removal rates varied widely be-tween the subbasins, ranging from 5 to 86 g m(-2) yr(-1), and were positively correlated with NO3--N input loads. We conclude that SFWs, if installed area-wide, can help to significantly reduce NO3--N loads in a river basin and can be an important component of a comprehensive management strategy to reduce N loads in surface waters to acceptable levels. The installation of SFWs should be prioritized in hot-spot areas where the greatest benefit can be expected.

原文链接:

NSTL
Elsevier

Combining Geographical Information System (GIS) and machine learning to monitor and predict vegetation vulnerability: An Empirical Study on Nijhum Dwip, Bangladesh

Abdullah, ShahriarBarua, Dhrubo

13页

查看更多>>摘要：Vegetation loss has become a global concern as it is directly and indirectly harmful to all living beings, specifically to humans. By realizing the dimension of this issue, we have developed an Artificial Neural Network (ANN) based model by combining GIS and machine learning to investigate and predict the vegetation vulnerability with reliable accuracy. This model incorporates a sequence of geostatistical analyses, i.e., Normalized Difference Vegetation Index (NDVI), Hot Spot Analysis (Gi*) and Inverse distance weighted (IDW). 8 drivers, used in this study, were shuffled differently to obtain the highest accuracy possible and investigate their influence on land shift. However, the model was implemented on Nijhum Dwip island to quantify its credibility and evaluate the ecological stability and vulnerability status of this island. According to the findings, the island has undergone significant change between 2001 and 2021. The overall vegetative area has increased in this time as a result of the ecological reforestation projects undertaken after 2001. Then, our developed hybrid model was used to simulate the hot spot map of 2021 to quantify the accuracy of the model. Anyway, the kappa statistics was found more than 0.86 with 88.75% overall correctness, and the same weight values were utilized to predict the hotspot map of 2026 and 2031. The predicted maps showed a gradual increase in the vulnerable zones, which is the outcome of the uncontrolled extracting of natural resources. Eventually, the methodological knowledge of this study can help researchers as well as policymakers to estimate vegetation vulnerability and legislate new policies that support sustainable development, and the quantitative knowledge on Nijhum Dwip can facilitate future planning of this island.

原文链接:

NSTL
Elsevier

Straw checkerboard barriers improve soil restoration and mitigate the impacts of drought on Medicago scutellata L

Dehkordi, Elahe AhmadpoorSurki, Ali AbbasiPajouhesh, MehdiTahmasebi, Pejman...

10页

查看更多>>摘要：Straw checkerboard barriers (SCB) are widely employed for ecological restoration of habitats in the arid and semi-arid regions of the world. Through a field experimental study in 2018-2019, we evaluated the environmental effects of SCB with three treatments of border, center and outside the SCB (as the control) on several soil properties such as soil water content (SWC), soil organic carbon (SOC), total N, available P and available K. Furthermore, several key physiological traits of Medicago scutellata including plant height, leaf dry weight, chlorophyll and carotenoids, relative water contents, malondialdehyde and proline were measured in order assess growth performance of this plant in response to microhabitat condition provided by SCB. The results showed that SOC, total N, available P and available K significantly increased by 26%, 33%, 52% and 71% respectively, nine months after SCB establishments compared to the control. The SCB reduced water losses from the soil surface and enhance soil moisture retention and resulted in higher rates of growth, CO2 assimilation, and improved yields. Higher amounts of SWC (18-22%), leaf dry weight (183%), chlorophyll a (96%), chlorophyll b (93%), carotenoid (65%), and relative water contents (21%), were observed for individual of M. scutellata in SCB compared to control. The results also showed that the SCB resulted in the microhabitat modification of soil condition for growth characteristics of M. scutellata, particularly for border of SCB by improving SWC, which may affect nitrogenase activity and nodulation of M. scutellata. The results indicate that the barrier could create a microhabitat with improved factors that suit it for successful establishment, plant recovery and ecological restoration of arid and semi-arid areas.

原文链接:

NSTL
Elsevier

Mycorrhiza fungi application as a successful tool for worldwide mine land restoration: Current state of knowledge and the way forward

de Moura, MariaLuiza AbatemarcoOki, YumiArantes-Garcia, LucasCornelissen, Tatiana...

8页

查看更多>>摘要：The restoration of degraded areas in mined land has not always achieved the desired success. Biological tools such as the use of arbuscular mycorrhizal fungi (AMF) are needed to increase and accelerate the restoration effectiveness of natural processes and ecosystem services in restored degraded areas. AMF can increase water and nutrient uptake by the host plants, therefore decreasing plant stress and improving habitat development in mined areas under restoration. We conducted a global meta-analysis from 193 independent outcomes to understand the overall effect of employing AMF as a restoration tool and to evaluate sources of variation on the effects of AMF inoculation on plant development in areas degraded by mining. Our results emphasize the great potential of the use of AMF to stimulate plant growth in the restoration of mined areas with stronger effects if associated with the utilization of organic matter and other soil microorganisms. Although AMF studies are concentrated in temperate regions, AMF inoculum promoted greater plant development on mined substrates regardless of the region and fungi type or origin. Inoculation also improved plant growth in materials of difficult restoration, such as overburden and tailings, but the AMF effects depended upon the exploited mineral type. Further investment in longterm field studies on the effects of AMF inoculation on plant survival, reproduction, fitness, and related ecological processes is essential to further consolidate the use of AMF on the restoration of mined areas.

原文链接:

NSTL
Elsevier