[HTML][HTML] Climate change and the future distribution of Brown Planthopper in Indonesia: A projection study
Abstract The Brown planthopper, Nilapavarta lugens (Stål)(BPH) is a major pest of rice after
the adoption of the Green Revolution. Its outbreaks are frequently linked to climate variability …
the adoption of the Green Revolution. Its outbreaks are frequently linked to climate variability …
Predicting the potential impacts of climate change on the endangered Caesalpinia bonduc (L.) Roxb in Benin (West Africa)
HG Wouyou, BE Lokonon, R Idohou, AG Zossou-Akete… - Heliyon, 2022 - cell.com
Caesalpinia bonduc (L.) Roxb is a medicinal plant with high therapeutic values but declared
extinct in the wild in Benin. This study explored the potential distribution and climatic …
extinct in the wild in Benin. This study explored the potential distribution and climatic …
Biological connectivity and its driving mechanisms in the Liaohe Delta wetland, China
K Chen, P Cong, L Qu, S Liang, Z Sun, J Han - Ecological Informatics, 2023 - Elsevier
Biological connectivity plays a cricial role in maintaining biodiversity and ecosystem
function. However, it is poorly understood how to quantify biological connectivity and …
function. However, it is poorly understood how to quantify biological connectivity and …
Filtering multi-collinear predictor variables from multi-resolution rasters of WorldClim 2.1 for Ecological Niche Modeling in Indonesian context
P Pradhan, AD Setyawan - Asian Journal of Forestry, 2021 - smujo.id
Pradhan P, Setyawan AD. 2021. Filtering multi-collinear predictor variables from multi-
resolution rasters of WorldClim 2.1 for Ecological Niche Modeling in Indonesian context …
resolution rasters of WorldClim 2.1 for Ecological Niche Modeling in Indonesian context …
Modeling water hyacinth (Eichhornia crassipes) distribution in Lake Tana, Ethiopia, using machine learning
M Belayhun, A Mekuriaw - Remote Sensing Applications: Society and …, 2024 - Elsevier
Aquatic invasive plant, water hyacinth poses serious environmental and socioeconomic
challenges. Understanding and predicting the spatiotemporal distribution of this species is …
challenges. Understanding and predicting the spatiotemporal distribution of this species is …
Modelling potential current distribution and future dispersal of an invasive species Calliandra calothyrsus in Bali Island, Indonesia
A Yudaputra - Biodiversitas, 2020 - smujo.id
Yudaputra A. 2020. Modelling potential current distribution and future dispersal of an
invasive species Calliandra calothyrsus in Bali Island, Indonesia. Biodiversitas 21: 674-682 …
invasive species Calliandra calothyrsus in Bali Island, Indonesia. Biodiversitas 21: 674-682 …
Environment predicts Batrachochytrium dendrobatidis lineage distribution and zones of recombination in South Africa
R Verster, PN Ghosh, TR Sewell… - Ecology and …, 2024 - Wiley Online Library
The amphibian‐infecting chytrid fungus, Batrachochytrium dendrobatidis (Bd), is widespread
throughout Africa and is linked to declines of populations and species across the continent …
throughout Africa and is linked to declines of populations and species across the continent …
Spatial habitat suitability prediction of essential oil wild plants on Indonesia's degraded lands
Background Essential oils are natural products of aromatic plants with numerous uses.
Essential oils have been traded worldwide and utilized in various industries. Indonesia is the …
Essential oils have been traded worldwide and utilized in various industries. Indonesia is the …
Modelling possible habitats for poplar invasion in South Africa
M Mapuru, S Xulu, M Gebreslasie - KOEDOE-African Protected Area …, 2024 - journals.co.za
Poplars (Populus alba, Populus canadensis, Populus canescens, Populus deltoides,
Populus fremontii, Populus nigra and Populus simonii) are found throughout the world and …
Populus fremontii, Populus nigra and Populus simonii) are found throughout the world and …
Modeling potential distribution of Baccaurea macrocarpa in South Kalimantan, Indonesia
Gunawan, Rizki MI, Anafarida O, Mahmudah N. 2021. Modeling potential distribution of
Baccaurea macrocarpa in South Kalimantan, Indonesia. Biodiversitas 22: 3230-3236 …
Baccaurea macrocarpa in South Kalimantan, Indonesia. Biodiversitas 22: 3230-3236 …