Dynamic Species Distribution Models in the Marine Realm: Predicting Year-Round Habitat Suitability of Baleen Whales in the Southern Ocean

El‐Gabbas, Ahmed; Opzeeland, Ilse van; Burkhardt, Elke; Boebel, Olaf

doi:10.3389/fmars.2021.802276

Cited by 16 publications

(39 citation statements)

References 181 publications

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“…However, such data remains underrepresented, particularly from polar regions (Hammond et al, 2013; Redfern et al, 2006; Williams et al, 2006). Recent studies demonstrated the promising application of SDMs for conservation, decision‐making, and dynamic management in the marine realm (e.g., Hazen et al, 2018), with a particular interest in using presence‐only SDMs (El‐Gabbas et al, 2021a; Smith et al, 2021). This study employed presence‐only static SDMs (MaxEnt) to predict fin whales' habitat suitability and niche preferences on their feeding grounds in the Nordic and Barents Seas.…”

Section: Discussionmentioning

confidence: 99%

“…Our models are static, in which fin whale presence‐only sightings were related to variables summarizing the environmental conditions during the feeding season over ~15 years (Table 1). The implemented static models assume that cells occupied with any fin whale sightings represent a suitable habitat during the entire feeding season and ignore possible changes or shifts in fin whale distribution through time (Bateman et al, 2012; El‐Gabbas et al, 2021a, 2021b). Further, our static models can only describe persistent, broad‐scale (macroscale) associations between fin whales and long‐term characteristics of the ocean's climate.…”

Section: Discussionmentioning

confidence: 99%

“…However, in order to capture ephemeral or contemporaneous processes and implement effective dynamic ocean management, dynamic SDMs are necessary (Becker et al, 2016;El-Gabbas et al, 2021a;Mannocci et al, 2017).…”

Section: Limitationsmentioning

confidence: 99%

“…SDMs for marine species are generally less frequent than for terrestrial species, yet there is a notable increase in their application in the marine realm (Robinson et al, 2011; Smith et al, 2021). SDMs are particularly useful in estimating habitat suitability in remote regions with limited access, such as the polar oceans (El‐Gabbas et al, 2021a; Storrie et al, 2018). Cetaceans are highly mobile and spend a considerable amount of time underwater, which hampers accurate absence data collection (Praca et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

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Fin whale (Balaenoptera physalus) distribution modeling on their Nordic and Barents Seas feeding grounds

Duengen

Burkhardt

El‐Gabbas

2022

Marine Mammal Science

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Understanding cetacean distribution is essential for conservation planning and decision-making, particularly in regions subject to rapid environmental changes. Nevertheless, information on their spatiotemporal distribution is commonly limited, especially from remote areas. Species distribution models (SDMs) are powerful tools, relating species occurrences to environmental variables to predict the species' potential distribution. This study aims at using presence-only SDMs (MaxEnt) to identify suitable habitats for fin whales (Balaenoptera physalus) on their Nordic and Barents Seas feeding grounds. We used spatial-block crossvalidation to tune MaxEnt parameters and evaluate model performance using spatially independent testing data. We considered spatial sampling bias correction using four methods. Important environmental variables were distance to shore and sea ice edge, variability of sea surface temperature and sea surface salinity, and depth. Suitable fin whale habitats were predicted along the west coast of Svalbard, between Svalbard and the eastern Norwegian Sea, coastal areas off Iceland and southern East Greenland, and along the Knipovich Ridge to Jan Mayen. Results support that presence-only SDMs are effective tools to predict cetacean habitat suitability, particularly in remote areas like the Arctic Ocean. SDMs constitute a cost-effective method for

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Limitationsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Fin whale (Balaenoptera physalus) distribution modeling on their Nordic and Barents Seas feeding grounds

Duengen

Burkhardt

El‐Gabbas

2022

Marine Mammal Science

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“…seasonal) and diurnal trends in species occurrence, and to explore habitat association (e.g. Kyhn et al, 2012;Pirotta et al, 2014;El-Gabbas et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

Monitoring cetacean occurrence and variability in ambient sound in Scottish offshore waters

Geel¹,

Risch²,

Benjamins³

et al. 2022

Front. Remote Sens.

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The characterisation of marine soundscapes allows observation of spatiotemporal distribution of vocalising species and human activities, which can inform an assessment of their interactions. Such data are important for monitoring the ecological status of marine habitats. The Scottish Atlantic Frontier is an important habitat for a variety of cetacean species. Historic whaling has heavily impacted several species inhabiting these waters and current comprehensive information about seasonal occurrence and distribution is lacking for all species. This study presents year-round passive acoustic monitoring data from ten sites in this understudied region. The three most offshore sites were examined for baleen whale vocalisations, and four species were regularly detected. Fin whale detections peaked from October to January and were at their lowest during May and June. Humpback whale song was detected as early as January but showed a strong seasonal peak in March and April. In contrast, minke whales were detected regularly throughout the year but with a peak in detections from October to November, when sei whales were also detected. All monitoring sites showed frequent occurrence of odontocete echolocation clicks and whistles. Comprised mainly of delphinid vocalisations, whistles and clicks were detected on an almost-daily basis among the offshore sites, with a slight reduction in detections from May to July particularly among the more inshore sites. Ambient sound levels (root-mean-square sounds pressure level; SPL) varied by site and season in relation to species presence, anthropogenic contributions, and environmental conditions. Monthly median SPL across the array varied up to 18 dB within 1/3-octave bands. Throughout the year, variability in median SPL was lowest in the higher frequency bands (>10 kHz), while highest variability was found between January to July in specific lower frequency bands (<1 kHz). Results from this study demonstrate the value of passive acoustic data in providing novel baseline information about cetacean occurrence and distribution in Scottish offshore habitats where data are limited and outdated. The results will feed into statutory reporting on underwater noise, support the identification and designation of future marine protected areas for cetaceans, and help guide management of future human-marine mammal interactions in Scottish offshore waters.

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Impacts of physiological characteristics and human activities on the species distribution models of orchids taking the Hengduan Mountains as a case

Wang,

Peng,

Bai

et al. 2023

Ecology and Evolution

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The biogeography research of orchids through species distribution models (SDMs), a vital tool in the biogeography field, is critical to understanding the fundamental geographic distribution patterns and identifying conservation priorities. The correspondence between species occurrence and environmental information is crucial to the model's performance. However, ecological preferences unique to different orchid species, such as their life forms, are often overlooked during the modeling process. This oversight can introduce bias and increase model uncertainty. Additionally, human activities, as an important potential predictor, have not been quantified in any orchid SDMs. Taking the Hengduan Mountains as an example, we preprocessed all orchid species' occurrences based on physiological characteristics. Choosing five spatial factors related to human activities to quantify the interference and enter into models as HI factor. Using different modeling methods (GLM, MaxEnt, and RF) and evaluation indices (AUC, TSS, and Kappa), diverse modeling strategies have been constructed in the study. A double‐ranking method has been adopted to select the critical orchid distribution regions. The results showed that classification models based on physiological characteristics significantly improved the model's accuracy while adding the HI factor had the same effect but the absence of enough significance. Suitability maps indicated that highly heterogeneous mountainous areas were vital for the distribution of orchids in the Hengduan Mountains. Different distribution patterns and critical regions existed between various orchid life forms geographically – terrestrial orchids were dominant in the mountain, and mycoherterophical orchids were primarily located in the north, more influenced by vegetation and temperature. Critical regions of epiphytic orchids were in the south due to a greater dependence on precipitation and temperature. These studies are informative for understanding the orchids' geographic distribution patterns in the Hengduan Mountains, promoting conservation and providing references for similar research beyond orchids.

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Dynamic Species Distribution Models in the Marine Realm: Predicting Year-Round Habitat Suitability of Baleen Whales in the Southern Ocean

Cited by 16 publications

References 181 publications

Fin whale (Balaenoptera physalus) distribution modeling on their Nordic and Barents Seas feeding grounds

Fin whale (Balaenoptera physalus) distribution modeling on their Nordic and Barents Seas feeding grounds

Monitoring cetacean occurrence and variability in ambient sound in Scottish offshore waters

Impacts of physiological characteristics and human activities on the species distribution models of orchids taking the Hengduan Mountains as a case

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