EcoShift

New Zealand's Coastal Sponges Face Massive Bleaching Crisis Amid Climate Change

Synopsis: Thousands of kilometers of New Zealand's coastline are witnessing alarming sponge bleaching, primarily affecting the species Cymbastella lamellata. Researchers from Te Herenga Waka - Victoria University of Wellington have made significant findings regarding this phenomenon.
Sunday, August 11, 2024
Sponge
Source : ContentFactory

In a concerning environmental development, marine sponges along New Zealand's coastline are experiencing significant bleaching, impacting thousands of kilometers of marine ecosystems. This bleaching event, primarily affecting the sponge species Cymbastella lamellata, has been linked to a prolonged heatwave that lasted for 259 days, during which water temperatures soared by up to 4.4 degrees Celsius above average. Researchers estimate that around 66 million marine sponges were affected, with nearly half of the sponge population along the approximately 1,000-kilometer coastline experiencing severe bleaching.

The study, led by marine biologist James Bell from Te Herenga Waka Victoria University of Wellington, highlights the unprecedented scale of this bleaching event. It is described as not only the largest sponge bleaching ever recorded globally but also the highest sponge mortality observed to date. The visual impact of this phenomenon is striking; sponges that typically display a dark brown hue have turned light white due to the loss of their symbiotic diatoms, which are crucial for their coloration and overall health.

The bleaching of sponges shares similarities with coral bleaching, where stress conditions lead to the expulsion of symbiotic organisms. In this case, the diatoms that provide color and essential nutrients to the sponges are lost, which may also impact the sponges’ ability to survive. While about 20% of the sponges were completely bleached, 75% showed partial bleaching, leaving only 5% unaffected. This drastic change raises concerns about the future of these vital marine organisms and the ecosystems they support.

Bell emphasizes the importance of the symbiotic relationships that sponges maintain with various microorganisms, including diatoms and crustaceans. These relationships are believed to play a crucial role in helping sponges endure stressful conditions. However, the exact consequences of bleaching on sponge mortality are still under investigation. It remains unclear whether the bleaching directly leads to death or if the sponges become more vulnerable to predation, making them easier targets for fish.

Despite the alarming situation, researchers have discovered a glimmer of hope. Some sponges have shown signs of recovery from the bleaching. This resilience suggests that sponges may possess the ability to adapt to rising water temperatures, which are becoming increasingly common due to climate change. The findings indicate that while the immediate effects of the heatwave have been devastating, there is potential for some sponge populations to bounce back.

The implications of this bleaching event extend beyond the sponges themselves. As the marine ecosystem shifts, the loss of sponges could disrupt the intricate web of life in these waters. Sponges play a vital role in filtering water and providing habitat for various marine species. The cascading effects of their decline could impact fish populations and other marine life that rely on healthy sponge communities.