Indices of Grassland Biodiversity in the Chihuahuan Desert Ecoregion Derived from Remote Sensing

Muldavin, Esteban; Neville, Paul; Harper, Glenn

doi:10.1046/j.1523-1739.2001.015004844.x

Cited by 47 publications

(34 citation statements)

References 21 publications

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“…Another problem in measuring biological diversity is presented by the difficulties and effort required for sampling large areas of densely forested landscapes, particularly when access to some particular sites is difficult, which is the case of most tropical forests (Fuller et al 1997). However, combining ground surveys with the support from remote sensing image analysis has proven to be a very useful tool for solving the numerous practical problems involved in this type of undertaking (Innes and Koch 1998;Nagendra and Gadgil 1999;Muldavin et al 2001;Kerr and Ostrovsky 2003). So, multi-spectral satellite images can be used for identifying and mapping land cover classes.…”

Section: Introductionmentioning

confidence: 99%

Mapping the spatial distribution of plant diversity indices in a tropical forest using multi-spectral satellite image classification and field measurements

Hernández‐Stefanoni

Poncé-Hernandez

2004

Biodiversity and Conservation

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The relationships among alpha and beta diversity indices, computed from 141 randomly sampled quadrats, and the vegetation classes obtained by multi-spectral satellite image classification, were used as a strategy for mapping plant diversity in a tropical landscape mosaic. A relatively high accuracy of the land cover map was revealed by the overall accuracy assessment and the Cohen's Kappa statistic. Species accumulation models were used to evaluate how representative the sample size was of the different vegetation types. A standard one-way, between-subjects ANOVA confirmed a significant reduction of the within-class variance of plant diversity with respect to their total variance across the landscape. Computed uniformity indices, to assess the internal uniformity of vegetation classes on the diversity indices, confirmed the goodness of the mapped classes in stratifying variability of plant diversity. This allowed for the use of the mapped classes as spatial interpolators of plant diversity values for estimation and up-scaling purposes. Finally, it was revealed that the plant diversity of the landscape depends, to a large extent, on the diversity contained in the most mature forest class, which is also the most diverse community in the studied area. High and moderate beta diversity values between mature forests and both the secondary associations and the first stages of succession, respectively, indicated that there is a significant contribution to the diversity of the landscape by those vegetation classes.

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Section: Introductionmentioning

confidence: 99%

Mapping the spatial distribution of plant diversity indices in a tropical forest using multi-spectral satellite image classification and field measurements

Hernández‐Stefanoni

Poncé-Hernandez

2004

Biodiversity and Conservation

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“…Or special indexes are needed to efficiently remove the effect from the exposed soil, litter, etc. (Muldavin et al, 2001). For animal assemblages, the canopy vertical distribution information is consistently found to be the strongest predictor of species richness and functions best in areas dominated by forest, scrub, suburban and wetland species.…”

Section: Biodiversitymentioning

confidence: 92%

Remote sensing of ecosystem services: An opportunity for spatially explicit assessment

Feng

Yang

et al. 2010

Chin. Geogr. Sci.

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Ecosystem service is an emerging concept that grows to be a hot research area in ecology. Spatially explicit ecosystem service values are important for ecosystem service management. However, it is difficult to quantify ecosystem services. Remote sensing provides images covering Earth surface, which by nature are spatially explicit. Thus, remote sensing can be useful for quantitative assessment of ecosystem services. This paper reviews spatially explicit ecosystem service studies conducted in ecology and remote sensing in order to find out how remote sensing can be used for ecosystem service assessment. Several important areas considered include land cover, biodiversity, and carbon, water and soil related ecosystem services. We found that remote sensing can be used for ecosystem service assessment in three different ways: direct monitoring, indirect monitoring, and combined use with ecosystem models. Some plant and water related ecosystem services can be directly monitored by remote sensing. Most commonly, remote sensing can provide surrogate information on plant and soil characteristics in an ecosystem. For ecosystem process related ecosystem services, remote sensing can help measure spatially explicit parameters. We conclude that acquiring good in-situ measurements and selecting appropriate remote sensor data in terms of resolution are critical for accurate assessment of ecosystem services.

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“…Various vegetation indices have been generated from optical satellite sensors which can provide quantitative information about vegetation health and biomass [39][40][41][42]. One of the most commonly used vegetation indices for yield estimation is the normalized difference vegetation index (NDVI).…”

Section: Literature Reviewmentioning

confidence: 99%

Remote Sensing, Crop Yield Estimation and Agricultural Vulnerability Assessment: a Case of Southern Alberta

Ren¹

2012

TOHYDJ

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This research investigates the relationship between agricultural production and the occurrence of meteorological droughts over time. A remote sensing approach is developed to estimate the yield of cereal crops based on the remotely sensed data in the study area. The yield estimates from remotely sensed imageries provide a primary data source to measure agricultural well-being and quantify agricultural vulnerability to drought. The drought condition as the stressor to agricultural production systems is characterized using the standard precipitation index (SPI). The results of the study indicate that crop production system in Southern Alberta is very vulnerable to drought. About half of the study area is associated with a high to extremely high vulnerability. If the drought trend in the recent past repeats itself in the near further, it can be expected that crop production in these areas will be seriously threatened.

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Indices of Grassland Biodiversity in the Chihuahuan Desert Ecoregion Derived from Remote Sensing

Cited by 47 publications

References 21 publications

Mapping the spatial distribution of plant diversity indices in a tropical forest using multi-spectral satellite image classification and field measurements

Mapping the spatial distribution of plant diversity indices in a tropical forest using multi-spectral satellite image classification and field measurements

Remote sensing of ecosystem services: An opportunity for spatially explicit assessment

Remote Sensing, Crop Yield Estimation and Agricultural Vulnerability Assessment: a Case of Southern Alberta

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