Assessing environmental change and population declines of large wading birds in southwestern India

K. M. Aarif; Aymen Nefla; K. A. Rubeena; Yanjie Xu; Zakher Bouragaoui; M. Nasser; C. T. Shifa; T. R. Athira; K. Jishnu; Jasmine Anand; Seerangan Manokaran; P. P. Moosa; Anu Gopinath; Omer R. Reshi; K. M. Rajaneesh; H. Byju; Thadickal V. Joydas; Karuppasamy P. Manikandan; Mohd Irfan Naikoo; Christian Sonne; Sabir Bin Muzaffar

doi:10.1016/j.indic.2024.100572

Assessing environmental change and population declines of large wading birds in southwestern India

K. M. Aarif, Aymen Nefla, K. A. Rubeena, Yanjie Xu, Zakher Bouragaoui, M. Nasser, C. T. Shifa, T. R. Athira, K. Jishnu, Jasmine Anand, Seerangan Manokaran, P. P. Moosa, Anu Gopinath, Omer R. Reshi, K. M. Rajaneesh, H. Byju, Thadickal V. Joydas, Karuppasamy P. Manikandan, Mohd Irfan Naikoo, Christian SonneSabir Bin Muzaffar

Department of Biology

Research output: Contribution to journal › Article › peer-review

Abstract

Large waders including herons and egrets are important ecological wetland health indicators since these species are sensitive to a complex set of environmental factors. Anthropogenic factors are driving major changes in coastal and inland wetlands. We investigated the relationship between environmental variables, productivity, fish diversity and large waders in southwestern India. These variables cover climatic variables (rainfall), sediment variables (salinity, pH, organic carbon, nitrogen, phosphorus), water variables (Salinity, pH, temperature, nitrate, phosphate), primary productivity (Chlorophyll-a) and prey availability (mean fish stock availability). Densities of all the studied wader species decreased significantly from 2010 to 2019, with highest densities in agroecosystems or estuarine habitats and in post-monsoon seasons but lowest in mudflats and in monsoon seasons. Structural equational modelling revealed that rainfall and organic carbon positively affected the primary productivity, whereas water variables (nitrate, salinity and phosphate) positively affected the fish stock availability. This in turn positively affected the density of large wading birds. The decreasing trend of water nitrate negatively affected the primary productivity and density of waterbirds while rainfall negatively affected fish stock availability and waterbird density. Sediment phosphorous adversely affected both the biotic variables and the density of waterbirds. Sediment variables (salinity, pH, and phosphorus) increased over years, whereas organic carbon and nitrogen in the sediment decreased significantly. Salinity, water temperature, pH, and phosphate showed a significant increase while water nitrate, and chlorophyll-a decreased over the period of study. Significant decline in fish stock availability and altered environmental variables resulted in long term decline in the abundance of wading birds. Thus, large waders have adapted to these long-term, anthropogenically driven, environmental changes by shifting to agroecosystems and estuaries as their alternate foraging habitats. These population declines indicate consistent decline in ecosystem health of wetlands. Strategies need to be formulated to mitigate declines and restore ecosystem health.

Original language	English
Article number	100572
Journal	Environmental and Sustainability Indicators
Volume	25
DOIs	https://doi.org/10.1016/j.indic.2024.100572
Publication status	Published - Feb 2025

Keywords

Conservation
Egrets
Herons
Population density
Primary productivity
Wading birds

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics
Environmental Science (miscellaneous)
Agricultural and Biological Sciences (miscellaneous)
Management, Monitoring, Policy and Law

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1016/j.indic.2024.100572

Cite this

Aarif, K. M., Nefla, A., Rubeena, K. A., Xu, Y., Bouragaoui, Z., Nasser, M., Shifa, C. T., Athira, T. R., Jishnu, K., Anand, J., Manokaran, S., Moosa, P. P., Gopinath, A., Reshi, O. R., Rajaneesh, K. M., Byju, H., Joydas, T. V., Manikandan, K. P., Naikoo, M. I., ... Muzaffar, S. B. (2025). Assessing environmental change and population declines of large wading birds in southwestern India. Environmental and Sustainability Indicators, 25, Article 100572. https://doi.org/10.1016/j.indic.2024.100572

Aarif, KM, Nefla, A, Rubeena, KA, Xu, Y, Bouragaoui, Z, Nasser, M, Shifa, CT, Athira, TR, Jishnu, K, Anand, J, Manokaran, S, Moosa, PP, Gopinath, A, Reshi, OR, Rajaneesh, KM, Byju, H, Joydas, TV, Manikandan, KP, Naikoo, MI, Sonne, C & Muzaffar, SB 2025, 'Assessing environmental change and population declines of large wading birds in southwestern India', Environmental and Sustainability Indicators, vol. 25, 100572. https://doi.org/10.1016/j.indic.2024.100572

@article{e63ffb94a3e64b618f30f76923371f34,

title = "Assessing environmental change and population declines of large wading birds in southwestern India",

abstract = "Large waders including herons and egrets are important ecological wetland health indicators since these species are sensitive to a complex set of environmental factors. Anthropogenic factors are driving major changes in coastal and inland wetlands. We investigated the relationship between environmental variables, productivity, fish diversity and large waders in southwestern India. These variables cover climatic variables (rainfall), sediment variables (salinity, pH, organic carbon, nitrogen, phosphorus), water variables (Salinity, pH, temperature, nitrate, phosphate), primary productivity (Chlorophyll-a) and prey availability (mean fish stock availability). Densities of all the studied wader species decreased significantly from 2010 to 2019, with highest densities in agroecosystems or estuarine habitats and in post-monsoon seasons but lowest in mudflats and in monsoon seasons. Structural equational modelling revealed that rainfall and organic carbon positively affected the primary productivity, whereas water variables (nitrate, salinity and phosphate) positively affected the fish stock availability. This in turn positively affected the density of large wading birds. The decreasing trend of water nitrate negatively affected the primary productivity and density of waterbirds while rainfall negatively affected fish stock availability and waterbird density. Sediment phosphorous adversely affected both the biotic variables and the density of waterbirds. Sediment variables (salinity, pH, and phosphorus) increased over years, whereas organic carbon and nitrogen in the sediment decreased significantly. Salinity, water temperature, pH, and phosphate showed a significant increase while water nitrate, and chlorophyll-a decreased over the period of study. Significant decline in fish stock availability and altered environmental variables resulted in long term decline in the abundance of wading birds. Thus, large waders have adapted to these long-term, anthropogenically driven, environmental changes by shifting to agroecosystems and estuaries as their alternate foraging habitats. These population declines indicate consistent decline in ecosystem health of wetlands. Strategies need to be formulated to mitigate declines and restore ecosystem health.",

keywords = "Conservation, Egrets, Herons, Population density, Primary productivity, Wading birds",

author = "Aarif, {K. M.} and Aymen Nefla and Rubeena, {K. A.} and Yanjie Xu and Zakher Bouragaoui and M. Nasser and Shifa, {C. T.} and Athira, {T. R.} and K. Jishnu and Jasmine Anand and Seerangan Manokaran and Moosa, {P. P.} and Anu Gopinath and Reshi, {Omer R.} and Rajaneesh, {K. M.} and H. Byju and Joydas, {Thadickal V.} and Manikandan, {Karuppasamy P.} and Naikoo, {Mohd Irfan} and Christian Sonne and Muzaffar, {Sabir Bin}",

note = "Publisher Copyright: {\textcopyright} 2024",

year = "2025",

month = feb,

doi = "10.1016/j.indic.2024.100572",

language = "English",

volume = "25",

journal = "Environmental and Sustainability Indicators",

issn = "2665-9727",

publisher = "Elsevier B.V.",

}

TY - JOUR

T1 - Assessing environmental change and population declines of large wading birds in southwestern India

AU - Aarif, K. M.

AU - Nefla, Aymen

AU - Rubeena, K. A.

AU - Xu, Yanjie

AU - Bouragaoui, Zakher

AU - Nasser, M.

AU - Shifa, C. T.

AU - Athira, T. R.

AU - Jishnu, K.

AU - Anand, Jasmine

AU - Manokaran, Seerangan

AU - Moosa, P. P.

AU - Gopinath, Anu

AU - Reshi, Omer R.

AU - Rajaneesh, K. M.

AU - Byju, H.

AU - Joydas, Thadickal V.

AU - Manikandan, Karuppasamy P.

AU - Naikoo, Mohd Irfan

AU - Sonne, Christian

AU - Muzaffar, Sabir Bin

PY - 2025/2

Y1 - 2025/2

N2 - Large waders including herons and egrets are important ecological wetland health indicators since these species are sensitive to a complex set of environmental factors. Anthropogenic factors are driving major changes in coastal and inland wetlands. We investigated the relationship between environmental variables, productivity, fish diversity and large waders in southwestern India. These variables cover climatic variables (rainfall), sediment variables (salinity, pH, organic carbon, nitrogen, phosphorus), water variables (Salinity, pH, temperature, nitrate, phosphate), primary productivity (Chlorophyll-a) and prey availability (mean fish stock availability). Densities of all the studied wader species decreased significantly from 2010 to 2019, with highest densities in agroecosystems or estuarine habitats and in post-monsoon seasons but lowest in mudflats and in monsoon seasons. Structural equational modelling revealed that rainfall and organic carbon positively affected the primary productivity, whereas water variables (nitrate, salinity and phosphate) positively affected the fish stock availability. This in turn positively affected the density of large wading birds. The decreasing trend of water nitrate negatively affected the primary productivity and density of waterbirds while rainfall negatively affected fish stock availability and waterbird density. Sediment phosphorous adversely affected both the biotic variables and the density of waterbirds. Sediment variables (salinity, pH, and phosphorus) increased over years, whereas organic carbon and nitrogen in the sediment decreased significantly. Salinity, water temperature, pH, and phosphate showed a significant increase while water nitrate, and chlorophyll-a decreased over the period of study. Significant decline in fish stock availability and altered environmental variables resulted in long term decline in the abundance of wading birds. Thus, large waders have adapted to these long-term, anthropogenically driven, environmental changes by shifting to agroecosystems and estuaries as their alternate foraging habitats. These population declines indicate consistent decline in ecosystem health of wetlands. Strategies need to be formulated to mitigate declines and restore ecosystem health.

AB - Large waders including herons and egrets are important ecological wetland health indicators since these species are sensitive to a complex set of environmental factors. Anthropogenic factors are driving major changes in coastal and inland wetlands. We investigated the relationship between environmental variables, productivity, fish diversity and large waders in southwestern India. These variables cover climatic variables (rainfall), sediment variables (salinity, pH, organic carbon, nitrogen, phosphorus), water variables (Salinity, pH, temperature, nitrate, phosphate), primary productivity (Chlorophyll-a) and prey availability (mean fish stock availability). Densities of all the studied wader species decreased significantly from 2010 to 2019, with highest densities in agroecosystems or estuarine habitats and in post-monsoon seasons but lowest in mudflats and in monsoon seasons. Structural equational modelling revealed that rainfall and organic carbon positively affected the primary productivity, whereas water variables (nitrate, salinity and phosphate) positively affected the fish stock availability. This in turn positively affected the density of large wading birds. The decreasing trend of water nitrate negatively affected the primary productivity and density of waterbirds while rainfall negatively affected fish stock availability and waterbird density. Sediment phosphorous adversely affected both the biotic variables and the density of waterbirds. Sediment variables (salinity, pH, and phosphorus) increased over years, whereas organic carbon and nitrogen in the sediment decreased significantly. Salinity, water temperature, pH, and phosphate showed a significant increase while water nitrate, and chlorophyll-a decreased over the period of study. Significant decline in fish stock availability and altered environmental variables resulted in long term decline in the abundance of wading birds. Thus, large waders have adapted to these long-term, anthropogenically driven, environmental changes by shifting to agroecosystems and estuaries as their alternate foraging habitats. These population declines indicate consistent decline in ecosystem health of wetlands. Strategies need to be formulated to mitigate declines and restore ecosystem health.

KW - Conservation

KW - Egrets

KW - Herons

KW - Population density

KW - Primary productivity

KW - Wading birds

UR - http://www.scopus.com/inward/record.url?scp=85213984652&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85213984652&partnerID=8YFLogxK

U2 - 10.1016/j.indic.2024.100572

DO - 10.1016/j.indic.2024.100572

M3 - Article

AN - SCOPUS:85213984652

SN - 2665-9727

VL - 25

JO - Environmental and Sustainability Indicators

JF - Environmental and Sustainability Indicators

M1 - 100572

ER -

Assessing environmental change and population declines of large wading birds in southwestern India

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

Access to Document

Other files and links

Fingerprint

Cite this