climate change – W. A. Greenly.

South Australia’s coastline is changing faster than ever — and it’s not just the tides causing concern. If you’ve noticed shifting shorelines, declining wildlife, or worrying news about our oceans, you’re not imagining it. The reality is harsher than many realise, and the time to understand what’s happening is now.

Feeling overwhelmed or unsure about what this means for our environment and communities? You are not alone. Every week, thousands of readers turn to this blog for clear, science-backed explanations that cut through the noise and help you make sense of these urgent changes.

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Recently, My Local Coastline in South Australia Has Been Overcome by an Algal Bloom.

In the past few weeks, the usually pristine beaches of South Australia have taken on an eerie new look. Locals walking along the coastlines from Port Noarlunga to the Yorke Peninsula have been greeted not by crashing waves or curious dolphins, but by the grim sight of dead fish scattered along the sand. Reports have included mass deaths of sardines, snapper, and mulloway—species critical to local ecosystems and fisheries alike. The cause? A large-scale algal bloom that’s spread rapidly through Gulf St Vincent and adjacent waters.

This isn’t just a freak occurrence. Scientists and marine authorities have confirmed that the deaths are linked to a sudden explosion of microscopic algae in coastal waters, triggered by a mix of environmental conditions. These so-called algal blooms might sound harmless—just some greenish water, right? But in reality, they can suffocate marine life, poison ecosystems, and devastate economies that rely on fishing and tourism.

So what exactly are algal blooms, and why are they happening now?

The Wonders and Woes of Algae

Algae are often misunderstood. Though not plants, animals, or fungi, they’re foundational to life on Earth. Ranging from single-celled phytoplankton to massive seaweeds like kelp, algae contribute up to 80% of the planet’s oxygen and are central to aquatic food webs (Field et al., 1998). Without them, the oceans—and life as we know it—would cease to function.

But like many things in nature, balance is key. When that balance tips, algae can go from life-givers to ecosystem killers.

The Emergence of Algal Blooms: Causes and Consequences

What Triggers an Algal Bloom?

An algal bloom occurs when environmental conditions allow algae to grow out of control. The main culprit? Nutrient overload—particularly nitrogen and phosphorus—usually from sources like:

Agricultural runoff
Urban wastewater
Industrial discharge
Flood-related land drainage

This process, known as eutrophication, fuels algae like fertiliser fuels weeds. Once the bloom reaches its peak, it often leads to massive die-offs of the very algae that caused it. As these organisms decay, bacteria consume oxygen in the water—leading to hypoxia, or dangerously low oxygen levels (Diaz & Rosenberg, 2008). Marine life either suffocates or flees.

Fish Kills, Toxins, and Rising Temperatures

What’s happening along South Australia’s coast is a textbook case of hypoxia. As the bloom suffocated waters, thousands of fish lost their oxygen supply. This has been compounded by reports of Karenia brevis-like species and other dinoflagellates—algae known to produce powerful toxins—spiking in the region (Hallegraeff, 2003).

Adding fuel to the fire, South Australia has also recently experienced a marine heatwave, with sea surface temperatures significantly above average. These warmer waters have created ideal conditions for algal growth by accelerating photosynthetic activity and extending the lifespan of blooms (Oliver et al., 2018). Marine heatwaves can also reduce ocean mixing, leading to more stable, stratified layers in the water column—conditions that further encourage harmful blooms to thrive (Smale et al., 2019).

Some algal blooms release neurotoxins that bioaccumulate in shellfish and small fish, posing a danger not just to marine life, but also to humans through seafood consumption. These harmful algal blooms (HABs) have led to shellfish harvest closures and health warnings in multiple Australian states in past years.

Why Now? Climate, Floods, and Human Influence

South Australia’s recent bloom didn’t happen in isolation. Several natural and unnatural factors have come together to create a perfect storm:

Cool water upwelling off the coast brought nutrient-rich waters to the surface, a natural driver of algal productivity.
Stagnant, low-circulation conditions in enclosed gulfs like Spencer Gulf and Gulf St Vincent allowed algae to accumulate.
Recent flood events flushed excess nutrients—like nitrogen and phosphorus—into marine environments from far inland (Drewry et al., 2006).
Rising ocean temperatures, driven in part by a regional marine heatwave, increased stratification and favoured algae dominance over other marine planktonic organisms (Oliver et al., 2018; Smale et al., 2019).
Climate change continues to intensify these conditions, creating a feedback loop where blooms become more frequent, persistent, and damaging (Paerl & Huisman, 2008).

What we’re witnessing is not just a natural occurrence—it’s an ecological event supercharged by human activity and warming seas.

So What Can We Do About It?

1. Reduce Nutrient Pollution

Cutting down fertiliser runoff, improving wastewater treatment, and implementing buffer zones along rivers and coasts are critical steps. We need to address the source, not just the symptoms.

2. Improve Monitoring

Real-time satellite data and water quality testing can help forecast and manage blooms before they cause mass die-offs. Citizen science efforts can also play a key role in early warning systems.

3. Restore Natural Defences

Wetlands and seagrass beds naturally absorb and filter nutrients. Protecting and restoring these habitats can provide long-term buffers against algal overgrowth.

Conclusion: What’s Happened in South Australia?

In short, a toxic cocktail of natural conditions—like upwelling, stagnant currents, and warmer-than-usual ocean temperatures due to a marine heatwave—combined with human-caused impacts—nutrient runoff from floods, climate change, and coastal development—has led to the algal bloom blanketing our coastline.

This event is a stark reminder of the fragile balance within our marine ecosystems. While algae are fundamental to life on Earth, when the balance tips, they can just as easily bring death to the waters they once sustained.

Moving forward, we must take a proactive, science-backed approach to managing water quality, climate impacts, and ocean warming—not just for South Australia, but for coastlines around the globe.

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References

Diaz, R. J., and R. Rosenberg. 2008. “Spreading Dead Zones and Consequences for Marine Ecosystems.” Science 321 (5891): 926–929. https://doi.org/10.1126/science.1156401
Drewry, J. J., Newham, L. T. H., and Greene, R. S. B. 2006. “A Review of Nitrogen and Phosphorus Export to Waterways: Context for Catchment Modelling.” Marine and Freshwater Research 57 (8): 757–774. https://doi.org/10.1071/MF05166
Field, C. B., Behrenfeld, M. J., Randerson, J. T., and Falkowski, P. 1998. “Primary Production of the Biosphere: Integrating Terrestrial and Oceanic Components.” Science 281 (5374): 237–240. https://doi.org/10.1126/science.281.5374.237
Hallegraeff, G. M. 2003. “Harmful Algal Blooms: A Global Overview.” In Manual on Harmful Marine Microalgae, edited by G. M. Hallegraeff, D. M. Anderson, and A. D. Cembella. UNESCO.
Oliver, E. C. J., Donat, M. G., Burrows, M. T., Moore, P. J., Smale, D. A., Alexander, L. V., Benthuysen, J. A., et al. 2018. “Longer and More Frequent Marine Heatwaves over the Past Century.” Nature Communications 9: 1324. https://doi.org/10.1038/s41467-018-03732-9
Paerl, H. W., and Huisman, J. 2008. “Climate: Blooms Like It Hot.” Science 320 (5872): 57–58. https://doi.org/10.1126/science.1155398
Smale, D. A., Wernberg, T., Oliver, E. C. J., Thomsen, M. S., Harvey, B. P., Straub, S. C., Burrows, M. T., et al. 2019. “Marine Heatwaves Threaten Global Biodiversity and the Provision of Ecosystem Services.” Nature Climate Change 9: 306–312. https://doi.org/10.1038/s41558-019-0412-1

Theme: Response, Factual, Opinion.

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The year is 2019, and in just a few more days it will be 2020. The climate debate, in my opinion, was won and lost years ago. Yet, it seems that a vast majority of the climate change deniers who still dispute the facts and evidence simply don’t know the difference between the weather and the climate.

Some don’t seem to understand that when several towns or cities record a high temperature on the same day, the average national temperature on that same day can still be what is considered normal. To go one step further, the average yearly temperature that surrounded that one day could also be normal, or it may even be colder than usual. I refer to a December 18, 2019 post by Craig Kelly (Liberal Federal Member for Hughes in Sydney’s South) who also refers to a single day’s weather as the ‘climate’ (please continue reading Craig, I am more than happy to be educating you on the difference).

A screenshot of the post by Craig Kelly, December 18, 2019.

Others have labelled their article “50 degrees everywhere, right across Australia in the 1800’s” while presenting a figure that displays only six weather recordings from that century and 15 recordings that are actually from the 1900’s. Six of which are temperatures only in the high 40’s. I refer this time to Joanne Nova, who from what I can see, offers climate change sceptics loose information camouflaged under misleading titles that will surely receive a quick share or stir up an immediate frenzy. People like Joanne aim only to ‘sceptic-monger’.

Cutouts from an article by Joanne Nova, January 24, 2019.

So, what’s the difference between climate and weather?

Weather is the state of the atmosphere reported day-to-day (such as those temperatures in Craig Kelly’s and Joanne Nova’s posts). The weather reflects short term changes in atmospherical conditions over small temporal scales, often minutes to weeks. I add, weather is not limited to temperature either.

Climate is the average weather of a certain place over a much larger temporal scale, often 20-30 years. Climate is also not limited to temperature.

So, isolated weather reports (including temperatures) from 50, 100, 200, 1000 or heck, 4 billion years ago, have absolutely nothing to do with the climate what so ever.

When scientists refer to climate change, they refer to the climate in a location i.e. Australia, changing over large temporal periods. This means they may calculate averages of weather conditions such as temperature, humidity, cloudiness, visibility, precipitation and wind within a period of 20-30 years in Australia. Then they compare this 20-30 year block with the following 20-30 year blocks and if they notice ON AVERAGE that the temperature is growing hotter, or there is less precipitation, or perhaps the wind has altered… BAM! That is ‘climate change’.

Fortunately for us, such comparisons have taken place and the information is readily available to anyone. Australia’s climate (average temperature) has warmed by just over 1 °C since 1910, leading to an increase in the frequency of extreme heat events⁽¹⁾.

A graph showing anomalies in annual temperature over land in the Australian region.

Figure 1: Anomalies in annual temperature over land in the Australian region. Anomalies are the departures from the 1961–1990 standard averaging period (Source: https://www.csiro.au/en/Research/OandA/Areas/Assessing-our-climate/State-of-the-Climate-2018/Australias-changing-climate).

Bar graph showing the frequency of extreme heat events.

Figure 2: Number of days each year where the Australian area-averaged daily mean temperature is extreme. Extreme days are those above the 99th percentile of each month from the years 1910–2017. These extreme daily events typically occur over a large area, with generally more than 40 per cent of Australia experiencing temperatures in the warmest 10 per cent for that month (Source: https://www.csiro.au/en/Research/OandA/Areas/Assessing-our-climate/State-of-the-Climate-2018/Australias-changing-climate).

For a more in-depth understanding of Australia’s changing climate I encourage you to read the compiled work of the trusted experts here: https://www.csiro.au/en/Research/OandA/Areas/Assessing-our-climate/State-of-the-Climate-2018/Australias-changing-climate

So, that’s it, an undeniable lesson on climate change. If, like me, you’re frustrated by the minority who still deny climate change and can’t tell the difference between climate and weather (as is the case with Craig Kelly and Joanne Nova), I suggest next time you come across a post or article like theirs, which appeals only to the sceptics, take the link of my article and post it in the comments and save yourself the time responding.

Thoughts? Comments? Post them below and I will be sure to respond.

Thank you and enjoy,

W. A. Greenly.

W. A. Greenly’s upcoming articles include:

The Mystery of the Australian Megafauna.
Recycling Made Simple.
The Climate Change Vortex.

Literature cited:

Csiro.au. (2019). Australia’s changing climate – CSIRO. [online] Available at: https://www.csiro.au/en/Research/OandA/Areas/Assessing-our-climate/State-of-the-Climate-2018/Australias-changing-climate [Accessed 28 Dec. 2019].

Tag: climate change

A Blooming Problem: What’s Happening on South Australia’s Coastline?

The difference between weather and climate: a response to the climate change deniers