A review on ecology implications and pesticide degradation using nitrogen fixing bacteria under biotic and abiotic stress conditions
The excessive use of chemical substances such as pesticides, herbicides, and fungicides,
along with other harmful practices, has disrupted the beneficial microflora in the soil. These …
along with other harmful practices, has disrupted the beneficial microflora in the soil. These …
Heat stress reduces the contribution of diazotrophs to coral holobiont nitrogen cycling
Efficient nutrient cycling in the coral-algal symbiosis requires constant but limited nitrogen
availability. Coral-associated diazotrophs, ie, prokaryotes capable of fixing dinitrogen, may …
availability. Coral-associated diazotrophs, ie, prokaryotes capable of fixing dinitrogen, may …
Microbes support enhanced nitrogen requirements of coral holobionts in a high CO2 environment
Ocean acidification is posing a threat to calcifying organisms due to the increased energy
requirements of calcification under high CO2 conditions. The ability of scleractinian corals to …
requirements of calcification under high CO2 conditions. The ability of scleractinian corals to …
Denitrification Aligns with N2 Fixation in Red Sea Corals
Denitrification may potentially alleviate excess nitrogen (N) availability in coral holobionts to
maintain a favourable N to phosphorous ratio in the coral tissue. However, little is known …
maintain a favourable N to phosphorous ratio in the coral tissue. However, little is known …
The widely distributed soft coral Xenia umbellata exhibits high resistance against phosphate enrichment and temperature increase
Both global and local factors affect coral reefs worldwide, sometimes simultaneously. An
interplay of these factors can lead to phase shifts from hard coral dominance to algae or …
interplay of these factors can lead to phase shifts from hard coral dominance to algae or …
An efficient diazotroph‐derived nitrogen transfer pathway in coral reef system
The underlying mechanism for sustaining the high productivity of coral reefs in nutrient
deplete water, known as the Darwin Paradox, has long been debated. The input of new …
deplete water, known as the Darwin Paradox, has long been debated. The input of new …
Phosphate enrichment increases the resilience of the pulsating soft coral Xenia umbellata to warming
Hard corals are in decline as a result of the simultaneous occurrence of global (eg, ocean
warming) and local (eg, inorganic eutrophication) factors, facilitating phase shifts towards …
warming) and local (eg, inorganic eutrophication) factors, facilitating phase shifts towards …
Understanding nitrogen dynamics in coral holobionts: comprehensive review of processes, advancements, gaps, and future directions
M Li, HX Sheng, M Dai, SJ Kao - Frontiers in Marine Science, 2023 - frontiersin.org
Coral reefs are known for being highly productive ecosystems in oligotrophic oceans, which
is commonly referred to as the Darwin's Paradox. Nitrogen is an essential component of …
is commonly referred to as the Darwin's Paradox. Nitrogen is an essential component of …
Diazotroph-derived nitrogen assimilation strategies differ by scleractinian coral species
Reef-building corals generally thrive in nutrient-poor tropical waters, where among other
elements, nitrogen (N) availability often limits primary productivity. In addition to their close …
elements, nitrogen (N) availability often limits primary productivity. In addition to their close …
Testing assumptions of nitrogen cycling between a temperate, model coral host and its facultative symbiont: symbiotic contributions to dissolved inorganic nitrogen …
Coral symbioses are predicated on the need for mutual nutrient acquisition and
translocation between partners. Carbon translocation is well-studied in this classic …
translocation between partners. Carbon translocation is well-studied in this classic …