There's a hidden source of excess nutrients suffocating the Great Barrier Reef. We found it

Pristine coral and coral affected by excess nutrient in the Great Barrier Reef. Ashly McMahon, CC BY-ND

What are the sources of nutrients driving the degradation of the reef? Previous studies have focused on river discharge. According to one estimate, there has been a fourfold increase in riverine nutrient input to the Great Barrier Reef since pre-industrial times.

This past focus on rivers has emphasised reducing surface water nutrient inputs through changing regulations for land-clearing and agriculture, while neglecting other potential sources.

Read more: Floods of nutrients from fertilisers and wastewater trash our rivers. Could offsetting help?

However, the most recent nutrient budget for the Great Barrier Reef found river-derived nutrient inputs can account for only a small proportion of the nutrients necessary to support the abundant life in the reef. This imbalance suggests large, unidentified sources of nutrients to the reef. Not knowing what these are may lead to ineffective management approaches.

With recent government funding of more than $200 million to tackle water quality on the reef which is largely focused on managing river water inputs, it is crucial to make sure other nutrient sources are not overlooked.

The source of potential groundwater inputs to the Great Barrier Reef. Douglas Tait, CC BY-ND

We found a new nutrient source

Our research team decided to try and track down this missing source of nutrients.

We used natural tracers to track groundwater inputs off Queensland’s coast. This allows us to quantify how much invisible groundwater flows into the Great Barrier Reef, along with the nutrients hitching a ride with this water. Our findings indicate that current efforts to preserve and restore the health of the reef may require a new perspective.

Our team collected data from offshore surveys, rivers and coastal bores along the coastline from south of Rockhampton to north of Cairns. We used the natural groundwater tracer radium to track how much nutrient is transported from the land and shelf sediments via invisible groundwater flows.

Read more: How a disgruntled scientist looking to prove his food wasn't fresh discovered radioactive tracers and won a Nobel Prize 80 years ago

The AIMS research vessel, Cape Ferguson. Ashly McMahon, CC BY-ND

We found that groundwater discharge was 10–15 times greater than river inputs. This meant roughly one-third of new nitrogen and two-thirds of phosphorous inputs came via groundwater discharge. This was nearly twice the amount of nutrient delivered by river waters.

Past investigations have revealed that groundwater discharge delivers nutrients and affects water quality in a diverse range of coastal environments, including estuaries, coral reefs, coastal embayments and lagoons, intertidal wetlands such as mangroves and saltmarshes, the continental shelf and even the global ocean.

In some cases, this can account for 90% of the nutrient inputs to coastal areas, which has major implications for global biologic production.

Nevertheless, this pathway remains overlooked in most coastal nutrient budgets and water quality models.

The research team sampling groundwater near the Great Barrier Reef. Ashly McMahon, CC BY-ND

A paradigm shift needed?

Our results suggest the need for a strategic shift in management approaches aimed at safeguarding the Great Barrier Reef from the effects of excess nutrients.

This includes better land management practices to ensure fewer nutrients are entering groundwater aquifers. We can also use ecological (such as seaweed and bivalve aquaculture, enhancing seagrass, oyster reefs, mangroves and salt marsh) and hydrological (increasing flushing where possible) practices at groundwater discharge hotspots to reduce excess nutrients in the water column.

The reuse of nutrient-rich groundwater for agriculture also needs to be explored as it represents an untapped and inexpensive nutrient source.

Importantly, unlike river outflow, nutrients in groundwater can be stored underground for decades before being discharged into coastal waters. This means research and strategies to protect the reef need to be long-term. The potential large lag time may lead to significant problems in the coming decades as the nutrients now stored in underground aquifers make their way to coastal waters regardless of changes to current land use practices.

Pristine corals on the Great Barrier Reef. Ashly McMahon, CC BY-ND

The understanding and ability to manage the sources of nutrients is pivotal in preserving global coral reef systems.

While we need to reduce the impact of climate change on this fragile ecosystem, we also need to adjust our policies to manage nutrient inputs and safeguard the Great Barrier Reef for generations to come.

Read more: Out of danger because the UN said so? Hardly – the Barrier Reef is still in hot water

Authors: Douglas Tait, Senior Researcher, Southern Cross University

Read more https://theconversation.com/theres-a-hidden-source-of-excess-nutrients-suffocating-the-great-barrier-reef-we-found-it-214364