Is the rental property or properties you own or manage capable of killing your tenants?

 

Are you on the board of a not-for-profit organisation that provides social or affordable rental housing? Do you have a residential property portfolio or do you just own a second home your rent out?

Then this post is written for you to consider.

Is the rental property or properties you own or manage capable of killing your tenants?

ACOSS Heat Study 2024, 1 March 2024, excerpt:

Hotter days and homes with poor energy performance create hot boxes that cannot be cooled

People variously described living in hot homes that they cannot cool as “awful”, “unliveable”, “miserable”, “unbearable”, “torture” and “a prison.”

Of the 1007 people who completed the survey, most (80.4%) said their home gets too hot in the summer.

Over half the people surveyed (56.7%) said they struggle to cool their home.

At a state and Territory level, more than half of people in Western Australia (67.2%), Queensland (66.1%), Australian Capital Territory (64.3%) and New South Wales (55.0%) said their home gets too hot and they struggle to cool it. Nearly half of the people surveyed in Victoria (45.8%), South Australia (45.7%) and the Northern Territory (45.5%) also had this experience. Tasmania was the only jurisdiction where all people surveyed said either their home was comfortable, or they are able to cool it when hot.

Some groups were more likely to struggle to cool their home:

• people renting in social housing (78.3%)

• people receiving income support (60.8%)

• people renting directly from a real estate agency (68.6%) or landlord (56.7%).

People in social or private rental properties have very limited control to make changes to their home to make it more energy efficient and resistant to extreme temperatures. They have limited control to install insulation, draft proofing, shading, fans or air conditioners, regardless of whether or not they can afford these changes. Of the 558 people living in social housing or private rental, most (69.7%) said they struggle to cool their home. [my yellow highlighting]

“I rent and there is no air con. Though I have fans, that can’t compete with high temps.

My apartment is north-west facing at top of the block.”

- Judith, New South Wales

People who indicated that they were in insecure housing (3%) also spoke of having limited control to cool their home when it gets too hot.

Healthy Futures, media release, 26 March 2024, excerpt:

Heat-related illnesses kill thousands of Australians every year (1) and roughly one-third of these deaths can be attributed to climate change (2,3). Heatwaves increase the risk of dehydration, kidney failure, heart attacks and strokes. Older people, children, people with pre-existing health conditions and people unable to afford air conditioning are most vulnerable. [my yellow highlighting]

Currently, many social housing dwellings are poor quality and prone to temperature extremes (4-6). A 2023 survey of people on low incomes by the Australian Council of Social Services found that 94.5% avoided using air conditioning because it is too expensive (7). Solar panels can significantly reduce air conditioning costs, and while 30% of Australian homes now have rooftop solar, rooftop solar coverage on social housing in New South Wales, for example, is only 7% (8).

Energy efficiency retrofits and renewable-powered air conditioning will not only protect people from extreme temperatures and drive down costs of living; they will also mitigate climate change and its health impacts in the long term by reducing dependence on polluting fossil fuel-based electricity.

Nature Climate Change, 11, pages 492–500 (2021)

Published 31 May 2021:

The burden of heat-related mortality attributable to recent human-induced climate change

A. M. Vicedo-Cabrera, N. Scovronick, F. Sera, D. Royé, R. Schneider, A. Tobias, C. Astrom, Y. Guo, Y. Honda, D. M. Hondula, R. Abrutzky, S. Tong, M. de Sousa Zanotti Stagliorio Coelho, P. H. Nascimento Saldiva, E. Lavigne, P. Matus Correa, N. Valdes Ortega, H. Kan, S. Osorio, J. Kyselý, A. Urban, H. Orru, E. Indermitte, J. J. K. Jaakkola, N. Ryti, M. Pascal, A. Schneider, K. Katsouyanni, E. Samoli, F. Mayvaneh, A. Entezari, P. Goodman, A. Zeka, P. Michelozzi, F. de’Donato, M. Hashizume, B. Alahmad, M. Hurtado Diaz, C. De La Cruz Valencia, A. Overcenco, D. Houthuijs, C. Ameling, S. Rao, F. Di Ruscio, G. Carrasco-Escobar, X. Seposo, S. Silva, J. Madureira, I. H. Holobaca, S. Fratianni, F. Acquaotta, H. Kim, W. Lee, C. Iniguez, B. Forsberg, M. S. Ragettli, Y. L. L. Guo, B. Y. Chen, S. Li, B. Armstrong, A. Aleman, A. Zanobetti, J. Schwartz, T. N. Dang, D. V. Dung, N. Gillett, A. Haines, M. Mengel, V. Huber & A. Gasparrini

Abstract

Climate change affects human health; however, there have been no large-scale, systematic efforts to quantify the heat-related human health impacts that have already occurred due to climate change. Here, we use empirical data from 732 locations in 43 countries to estimate the mortality burdens associated with the additional heat exposure that has resulted from recent human-induced warming, during the period 1991–2018. Across all study countries, we find that 37.0% (range 20.5–76.3%) of warm-season heat-related deaths can be attributed to anthropogenic climate change and that increased mortality is evident on every continent. Burdens varied geographically but were of the order of dozens to hundreds of deaths per year in many locations. Our findings support the urgent need for more ambitious mitigation and adaptation strategies to minimize the public health impacts of climate change. [my yellow highlighting]

The Lancet, Planetary Health, Volume 5, Issue 7, E415-E425

Article published July 2021, excerpts:

Global, regional, and national burden of mortality associated with non-optimal ambient temperatures from 2000 to 2019: a three-stage modelling study

Prof Qi Zhao, PhD Prof Yuming Guo, PhD Tingting Ye, MSc Prof Antonio Gasparrini, PhD Prof Shilu Tong, PhD Ala Overcenco, PhD Aleš Urban, PhD Alexandra Schneider, PhD Alireza Entezari, PhD Ana Maria Vicedo-Cabrera, PhD Antonella Zanobetti, PhD Antonis Analitis, PhD Ariana Zeka, PhD Aurelio Tobias, PhD Baltazar Nunes, PhD Barrak Alahmad, MPH Prof Ben Armstrong, PhD Prof Bertil Forsberg, PhD Shih-Chun Pan, PhD Carmen Íñiguez, PhD Caroline Ameling, BS César De la Cruz Valencia, MSc Christofer Åström, PhD Danny Houthuijs, MSc Do Van Dung, PhD Dominic Royé, PhD Ene Indermitte, PhD Prof Eric Lavigne, PhD Fatemeh Mayvaneh, PhD Fiorella Acquaotta, PhD Francesca de'Donato, PhD Francesco Di Ruscio, PhD Francesco Sera, MSc Gabriel Carrasco-Escobar, MSc Prof Haidong Kan, PhD Hans Orru, PhD Prof Ho Kim, PhD Iulian-Horia Holobaca, PhD Jan Kyselý, PhD Joana Madureira, PhD Prof Joel Schwartz, PhD Prof Jouni J K Jaakkola, PhD Prof Klea Katsouyanni, PhD Prof Magali Hurtado Diaz, PhD Martina S Ragettli, PhD Prof Masahiro Hashizume, PhD Mathilde Pascal, PhD Micheline de Sousa Zanotti Stagliorio Coélho, PhD Nicolás Valdés Ortega, MSc Niilo Ryti, PhD Noah Scovronick, PhD Paola Michelozzi, MSc Patricia Matus Correa, MSc Prof Patrick Goodman, PhD Prof Paulo Hilario Nascimento Saldiva, PhD Rosana Abrutzky, MSc Samuel Osorio, MSc Shilpa Rao, PhD Simona Fratianni, PhD Tran Ngoc Dang, PhD Valentina Colistro, MSc Veronika Huber, PhD Whanhee Lee, PhD Xerxes Seposo, PhD Prof Yasushi Honda, PhD Prof Yue Leon Guo, PhD Prof Michelle L Bell, PhD Shanshan Li, PhD

Introduction

Earth's average surface temperature has risen at a rate of 0·07°C per decade since 1880, a rate that has nearly tripled since the 1990s.1 The acceleration of global warming has resulted in 19 of the 20 hottest years occurring after 2000 and an unprecedented frequency, intensity, and duration of extreme temperature events, such as heatwaves, worldwide. Exposure to non-optimal temperatures has been associated with a range of adverse health outcomes (eg, excess mortality and morbidity from various causes).2, 3, 4, 5, 6 All populations over the world are under certain threats from non-optimal temperatures, regardless of their ethnicity, location, sex, age, and socioeconomic status. For example, in China, 14·3% of non-accidental mortality in 2013–15 might have been related to non-optimal temperatures, with 11·6% of deaths explainable by cold exposure and 2·7% explainable by heat exposure.7 In the USA, the risk of mortality increased by 5–12% due to cold exposure and 5–10% due to heat exposure between 2000 and 2006.8 An association between ambient temperature and mortality risk has also been reported in India, Australia, the EU, South Africa, and other countries and regions. 9, 10, 11  [my yellow highlighting]

Figure 1 Average daily mean temperatures of the 750 locations from the 43 countries or territories included in the analysis

The colours represent the different ranges of average daily mean temperature during the data collection periods shown in the appendix (p 4).

Daily minimum and maximum temperatures between Jan 1, 2000, and Dec 31, 2019, were collected from the Global Daily Temperature dataset (grid size 0·5° × 0·5°) of the Climate Prediction Center. This dataset was developed, by use of a Shepard algorithm with observational data from 6000 to 7000 weather monitoring stations worldwide,15 as a benchmark for a range of reanalysis products and climate change models. Daily mean temperature was calculated by averaging daily minimum and maximum temperatures.

ScienceDirect

Energy and Buildings

Volume 272, 1 October 2022:

Integrated assessment of the extreme climatic conditions, thermal performance, vulnerability, and well-being in low-income housing in the subtropical climate of Australia

Shamila Haddad, Riccardo Paolini, Afroditi Synnefa, Lilian De Torres, Deo Prasad, Mattheos Santamouris

Abstract

Social housing stock worldwide can be characterised by poor indoor environmental quality and building thermal performance, which along with the increasing urban overheating put the low-income population at higher health risk. The dwellings’ thermal performance and the indoor environmental quality are often overlooked in the context of social housing compared to the general building stock in Australia. In the present study, the synergies between urban microclimate, indoor air temperature, housing characteristics and quality of life of residents have been investigated by employing subjective and objective assessment of indoor environmental quality in 106 low-income dwellings during the winter and summer of 2018–2019 in New South Wales. It further examines the impact of urban overheating and levels of income on indoor thermal conditions. The subjective method involved assessing the links between the type of housing in which low-income people live, energy bills, self-reported thermal sensation, health and well-being, and occupants’ behaviours. The results show that many dwellings operated outside the health and safety temperature limits for substantial periods. Indoor air temperatures reached 39.8 °C and the minimum temperature was about 5 °C. While the upper acceptability limit for indoor air temperature was 25.6 °C for 80 % satisfaction, periods of up to about 997 and 114 continuous hours above 26 °C and 32 °C were found in overheated buildings, respectively. Indoor overheating hours above 32 °C were recorded up to 238 % higher in Sydney’s western areas compared to eastern and inner suburbs. Similarly, residents in westerns suburbs and regions experience more outdoor overheating hours than those living near the eastern suburbs. This study highlights the interrelationships between ambient temperature, housing design, income, thermal comfort, energy use, and health and well-being in the context of social housing. The evidence of winter underheating and summer overheating suggests that improvements in building quality and urban heat mitigation are required to minimise the impacts of poor-performing housing and local climate. [my yellow highlighting]

Healthcare workers gathered outside Parliament to send the Federal Government a strong message that heat and climate change are harmful to health, and people need protection now

 

“As GPs, we know that increasing extremes of heat can have an impact on the health of the community – especially on the very young, and the very old. In primary care, we need to help our patients plan for heatwaves, which might include discussing staying cool, using air conditioning, or including this in chronic disease management plans, but we also need to advocate for broader interventions that can reduce climate change.” [Associate Professor Rowena Ivers, representing the Royal Australian College of General Practitioners, Healthy Futures media release, 26 March 2024]

IMAGE: @RACGPPresident

Health professionals gathered at 11am on Tuesday, 26 March 2024 outside Parliament House in Canberra to deliver an open letter signed by 25 organisations representing over 50,000 health professionals, including the Royal Australian College of General Practitioners (RACGP), the Australasian College for Emergency Medicine (ACEM) and the Australasian College of Sports and Exercise Physicians (ACSEP), calling for funding commitments for rooftop solar on social housing to protect vulnerable people from the health impacts of extreme heat and climate change.

Led by Healthy Futures1, the letter warns that heat-related illnesses kill thousands of Australians every year.

The letter requests that the Federal government commit to installing rooftop solar on at least 30% of Australian social housing, to be completed by the end of 2026, provide access to affordable renewable electricity where rooftop solar is impractical and install reverse cycle air conditioning and implement other energy efficient retrofits to achieve safe temperatures in all social housing.

Key facts:

Heat-related illnesses kill thousands of Australians every year (1) by increasing heart attacks, strokes, kidney failure and other health impacts.

Roughly one-third of heat-related deaths in Australia are attributable to climate change (2,3).

Many social housing dwellings are poor quality and prone to temperature extremes (3-5).

A 2023 survey of people on low incomes by the Australian Council of Social Services found that 94.5% avoided using air conditioning because it is too expensive (6). [Healthy Futures, media release, 26 March 2024]

Text of the Letter

To: the Hon Chris Bowen, Federal Minister for Climate Change & Energy

Cc: the Hon Jenny McAllister, Federal Assistant Minister for Climate Change & Energy

& the Hon Mark Butler, Federal Minister for Health & Aged Care

& the Hon Jim Chalmers, Federal Treasurer

& the Hon Julie Collins, Federal Minister for Housing

& the Hon Amanda Rishworth, Federal Minister for Families and Social Services

Dear Minister Bowen,

As healthcare workers and community members, we request that the Australian government protect people in social housing from the increasing health impacts of climate change by ensuring that their homes are kept at safe temperatures through building retrofits and affordable, renewable-powered air conditioning.

Heat-related illnesses kill thousands of Australians every year (1) and roughly one-third of these deaths can be attributed to climate change (2,3). Heatwaves increase the risk of dehydration, kidney failure, heart attacks and strokes. Older people, children, people with pre-existing health conditions and people unable to afford air conditioning are most vulnerable.

Currently, many social housing dwellings are poor quality and prone to temperature extremes (4-6). A 2023 survey of people on low incomes by the Australian Council of Social Services found that 94.5% avoided using air conditioning because it is too expensive (7). Solar panels can significantly reduce air conditioning costs, and while 30% of Australian homes now have rooftop solar, rooftop solar coverage on social housing in New South Wales, for example, is only 7% (8).

Energy efficiency retrofits and renewable-powered air conditioning will not only protect people from extreme temperatures and drive down costs of living; they will also mitigate climate change and its health impacts in the long term by reducing dependence on polluting fossil fuel-based electricity.

We therefore request that as part of the next federal budget you commit funding to:

• Roll out rooftop solar on at least 30% of Australian social housing, to be completed by the end of 2026

• Ensure access to affordable renewable electricity for social housing where rooftop solar is impractical, e.g. via power purchasing agreements and/or battery storage

• Install reverse cycle air conditioning and implement other energy efficient retrofits to achieve safe temperatures in all social housing.

Sincerely,

Signed by 25 organisations representing over 50,000 health professionals, including the Royal Australian College of General Practitioners (RACGP), the Australasian College for Emergency Medicine (ACEM) and the Australasian College of Sports and Exercise Physicians (ACSEP)

References:

[1] https://www.thelancet.com/journals/lanplh/article/PIIS2542-5196(21)00081-4/fulltext

[2]

https://www.smh.com.au/environment/climate-change/climate-change-blamed-for-more-than-a-third-of-heat-related-deaths-20210531-p57wpy.html

[3]

https://www.nature.com/articles/s41558-021-01058-x

[4] https://www.sciencedirect.com/science/article/abs/pii/S0378778822005205?via%3Dihub

[5] https://www.malleefamilycare.org.au/MFCSite/media/PDFDocuments/PublicHousing/2019/MalleeFamilyCare_PublicHousing_Report_2019.pdf

[6]

https://www.shelterwa.org.au/stuck-in-the-heat/

[7]

https://www.acoss.org.au/wp-content/uploads/2023/02/Heat-Survey-Report_20230228.pdf

[8]

https://www.dpie.nsw.gov.au/__data/assets/pdf_file/0004/576436/environmental-sustainability-strategy-2024-2026.pdf

“Extreme heat can trigger heart attacks, kidney failure, strokes and even death,” said Ursula Alquier, Healthy Futures Campaigner. “We want to see a commitment to ensure people living in social housing are able to live in safe and healthy homes”

“As healthcare workers, we are concerned about the health of our patients and our climate. People in social housing need energy-efficient homes with cheap renewable-powered air conditioning to protect their health” said Dr Harry Jennens, general practitioner and Healthy Futures Co-ordinator. [Healthy Futures, media release, 26 March 2024]

IMAGE: @RACGPPresident

NOTES

1. Healthy Futures is an affiliate of Friends of the Earth Australia and a member of the Climate and Health Alliance.

On 17 March 2024 Brazil's coastal capital Rio de Janeiro registered a record breaking city maximum apparent temperature of 62.3°C or 114.4°F

 

On Sunday 17 March 2024 the western section of the capital Rio De Janeiro recorded an ambient air temperature of 42°C or 107.6°F. However, Brazil's Instituto Nacional de Meteorologia (INMET) registered a record breaking city maximum apparent temperature of 62.3°C or 114.4°F.

In November 2023 the small city of Araçuaí hit 44.8°C or 112.6°F, according INMET. With an apparent temperature of 58.5°C or 137°F.

This is what INMET satellite infrared temperature mapping of Brazil looked like at different points on Sunday, 17 March 2024.

On 17 March 2024 Australia's capital Canberra recorded a maximum ambient air temperature of 16.6°C or 61.88°F, with an apparent temp of 15.3°C or 59.54°F.

CLIMATE CHANGE STATE OF PLAY 2024: so how hot was the surface air and sea surface on Sunday, 17 March?

 

According to the Australian Bureau of Meteorology (BOM) on 5 March 2024:

 Australia's climate has warmed by 1.50 ± 0.23 °C between 1910 and 2023, leading to an increase in the frequency of extreme heat events. In recent decades, there has also been a trend towards a greater proportion of rainfall from high intensity, short duration rainfall events, especially across northern Australia during the wet season. April to October rainfall has declined across southern Australia in recent decades, due to a combination of long-term natural variability and changes in atmospheric circulation caused by an increase in greenhouse gas concentrations.

The World Meteorological Organisation it its December 2023 "Significant weather and climate events in 2023" supplement noted:

Parts of northern Australia experienced major flooding during the early months of 2023. The remnants of Tropical Cyclone Ellie, which made landfall on 22 December 2022 in the western Northern Territory, brought major flooding to the Kimberley region of northern Western Australia and adjacent parts of the Northern Territory in late December and early January. Dimond Gorge received 355.6 mm on 2 January and 830.2 mm in the week from 28 December to 3 January. The Fitzroy River at Fitzroy Crossing exceeded its previous record level by more than a metre, and the main road bridge was destroyed, severing the only road links between the east Kimberley and areas further south and west for several months. A second major flood affected the far northwest of Queensland and eastern Northern Territory in early March. The Gregory River reached record levels and the town of Burketown was evacuated, although it ultimately escaped full inundation. Several Indigenous communities were also evacuated for extended periods. Later in the year, Tropical Cyclone Ilsa became the first category 5 landfall in Australia since 2009 when it crossed the coast east of Port Hedland on 13 April, in a sparsely populated area with limited impacts on land apart from the destruction of a roadhouse. However, much of Australia outside the tropics has had average to below average rainfall in 2023 to date, after widespread wet conditions in 2021 and 2022, and winter crop production is forecast to be slightly below the 10-year average, with a forecast 34% fall from record high levels in 2022. September was especially dry and was the country’s driest month on record averaged over the continent.

On 17 March 2024 this is how Australia was positioned in a global contest.

COPERNICUS Climate Pulse

According to the World Meteorological Organisation's State of Global Climate report the rate of global seal level rise has been 4.77mm a year since 2014. More than twice the rate of sea level rise occurring in the first decade of the satellite record (1993–2002). While CoastAdapt states; Consistent with global increases, sea levels have risen in Australia at an average rate of 2.1 mm/year over the past half century.

IMAGE: ABC News 20 March 2024

On 19 March 2024 BOM noted:

The annual global mean temperature for the 12 months from February 2023 to January 2024 was the highest on record, with Copernicus reporting that it was 1.52 °C above the 1850–1900 pre-industrial average.

El Niño persists and although it is likely to disappear by May 2024 it may become harder to reliably predict what will follow in the future

 

Australian Bureau of Meteorology (BOM), 5 March 2024

Neutral ENSO likely during autumn

El Niño persists, although a steady weakening trend is evident in its oceanic indicators. Climate models indicate sea surface temperatures in the central tropical Pacific are expected to continue declining and are forecast to return to ENSO-neutral in the southern hemisphere autumn 2024.

Atmospheric indicators are mixed but are consistent with a steadily weakening El Niño. Cloudiness near the equatorial Date Line has decreased over the last fortnight, returning to the climatological average. The 30-day Southern Oscillation Index (SOI) is currently less than -7.0, characteristic of an El Niño state, but indicative of ENSO-neutral conditions over the 60- and 90-day periods. Temporary fluctuations of ENSO atmospheric indicators are common during summer and are not an indication of El Niño strength.

International climate models suggest the central tropical Pacific Ocean will continue to cool in the coming months, with four out of seven climate models indicating the central Pacific is likely to return to neutral El Niño–Southern Oscillation (ENSO) levels by the end of April (i.e., neither El Niño nor La Niña), and all models indicating neutral in May. ENSO predictions made in autumn tend to have lower accuracy than predictions made at other times of the year. This means that current forecasts of the ENSO state beyond May should be used with caution.

Based on the historical record from 1900, around 50% of El Niño events have been followed by an ENSO-neutral year, and 40 to 50% have been followed by La Niña. However, global oceans have warmed significantly over the past 50 years. The oceans have been the warmest on record globally between April 2023 and January 2024. These changes may impact future predictions of ENSO events, if based solely on historical climate variability.

The Indian Ocean Dipole (IOD) is neutral. IOD events are typically unable to form between December and April. This is because the monsoon trough shifts south over the tropical Indian Ocean changing wind patterns and preventing the IOD pattern from forming.

The Southern Annular Mode (SAM) is currently neutral, as of 3 March. Forecasts indicate SAM will remain neutral over the coming fortnight.

The Madden–Julian Oscillation (MJO) is currently in the eastern Indian Ocean. The MJO is forecast to move into the Maritime Continent in the coming days and progress eastwards towards the Western Pacific over the coming fortnight. When the MJO is in the eastern Indian Ocean, increased cloudiness tends to occur over the eastern Indian Ocean and western parts of South East Asia. As the MJO shifts into the Maritime Continent, increased cloudiness tends to occur over parts of the far north of Australia and the islands of South East Asia, Indonesia and Papua New Guinea.

The annual global mean temperature for the 12 months from February 2023 to January 2024 was the highest on record, with Copernicus reporting that it was 1.52 °C above the 1850–1900 pre-industrial average. However, this does not mean that the 1.5 °C target referred to in the Paris Agreement has been exceeded as the magnitude of global warming is assessed using multi-year averages, and this is only one 12-month period.

Australia's climate has warmed by 1.50 ± 0.23 °C between 1910 and 2023, leading to an increase in the frequency of extreme heat events. In recent decades, there has also been a trend towards a greater proportion of rainfall from high intensity, short duration rainfall events, especially across northern Australia during the wet season. April to October rainfall has declined across southern Australia in recent decades, due to a combination of long-term natural variability and changes in atmospheric circulation caused by an increase in greenhouse gas concentrations.

[my yellow highlighting]

Climate Council sounding the alarm on a severe bleaching event unfolding across more than 1,100kms of the Great Barrier Reef from Lizard Island to the Keppel Islands

 

Coral Bleaching, Heron Island
Great Barrier Reef
IMAGE: Divers for Climate, February 2024
Climate Council

Climate pollution is “cooking” the Reef with law reform needed

Climate Council

MEDIA RELEASE TUESDAY 5 MARCH 2024

THE CLIMATE COUNCIL is sounding the alarm on a severe bleaching event unfolding across the Great Barrier Reef, with new vision showing the damage that stretches more than 1100 kilometres from Lizard Island to the Keppel Islands.

Marine heatwaves are bleaching swathes of the Southern Great Barrier reef white, which have brought direct observers to tears. With an ominous marine forecast for the coming weeks, authorities could declare another mass bleaching event.

The Reef, a cherished global icon and home to diverse marine life and a cornerstone of Australian natural heritage, faces repeated and escalating threats from climate pollution, caused by the burning of coal, oil, and gas, including more frequent and severe marine heatwaves.

Climate Council CEO Amanda McKenzie said: “Relentless pollution from coal, oil and gas is Australia’s number one environmental problem and it’s literally cooking the Reef. Our environmental protection laws are outdated and in desperate need of an overhaul to prevent new reef-destroying gas and coal projects.

“At least five coal and gas projects have been waved through under our outdated law by the Federal Government since it was elected, and more than 20 other highly polluting proposals are sitting on the Environment Minister's desk right now. These projects will keep being waved through without stronger laws, endangering our Reef, all marine life and the livelihoods of Queenslanders who depend on a healthy, vibrant reef.

“Australians expect our national environment law will protect the precious natural environments like the Great Barrier Reef, and the numerous communities that depend upon it - not destroy them. Unless this law is fixed to make climate pollution a core consideration, the Great Barrier Reef will continue to deteriorate before our children’s eyes.”

Climate Councillor Professor Lesley Hughes said: "As ocean temperatures continue to increase, our precious Great Barrier Reef is in grave danger. The composition and diversity of our once mighty Reef has already been changed after repeated marine heatwaves and mass bleaching events driven by the relentless burning of coal, oil and gas. Our focus must be on limiting further harm as much as possible.

“Australians understand the Reef is irreplaceable. Many Queensland workers and communities rely directly on it for their livelihoods, and every one of us depends on a healthy ocean. Scientists and tour operators are being brought to tears by what they’re observing.

“The Reef can be restored, but it needs at least a decade to recover from a severe bleaching event, and the only way to ensure that can happen is to rapidly reduce climate pollution from coal, oil and gas. The only way to safeguard the Great Barrier Reef as well as everyone and everything that depends on it is to cut climate pollution at the source."

Dr Dean Miller, Climate Council Fellow and reef expert said: "We're seeing the most vulnerable corals to heat stress start bleaching along the length of the Great Barrier Reef, which is alarming.

“It's not just about how many corals are bleaching, but that the ones most at risk are suffering. This stress is affecting corals of all sizes, from the largest ones that have survived past bleaching events to the smallest, youngest corals.

“If the heat stress continues, we'll see more widespread bleaching affecting a higher diversity of coral species, which is a major concern for the reef's health and ultimately its resilience."

For a closer look at the impacts of climate change on the Great Barrier Reef, explore our collection of recently recorded footage.

The Climate Council is Australia’s leading community-funded climate change communications organisation. We provide authoritative, expert and evidence-based advice on climate change to journalists, policymakers, and the wider Australian community.

For further information, go to: climatecouncil.org.au

Or follow us on social media: facebook.com/climatecouncil and twitter.com/climatecouncil

What is happening on the Great Barrier Reef is not something concerned people on the NSW far north coast can ignore. In addition to the rich marine biodiversity along its est. 2,300km length, the southern section of the Great Barrier Reef as a feeding and breeding ground for edible fish forms part of the sustainability cycle for our regional wild caught fisheries. Keppel Island is less than 700kms from the Clarence Coast fishery, perhaps the largest estuary-ocean fishery in New South Wales. 

Climate Change Australia State of Play 2024: will there ever be climate resilient housing for the poor and disadvantaged?

 

IMAGE: The Guardian, 9 December 2023

Australian Council of Social Service (ACOSS), "ACOSS Summer Heat Survey 2024", 1 March 2024, excerpts:

* Introduction

Summers are becoming hotter with climate change. In fact, the last nine years were the world’s hottest on record, with 2023 being the hottest year to date. Australia is experiencing more very hot days and heatwaves, and Bureau of Meteorology data forecasts more days where the national daily average is over 40 degrees. For people in remote areas and places like central and northern Australia, high temperatures are already common and daily temperatures reach 35 degrees for over half the year.

Severely hot days and heatwaves affect people experiencing financial and social disadvantage worst because they have fewer resources and choices to protect themselves from extreme heat. This is an urgent and critical public health problem. Heatwaves cause more deaths than all other extreme weather events combined. In Australia, there were an estimated 36,000 deaths associated with heat between 2006 and 2017. A lack of access to energy-efficient homes is often a primary factor in these deaths.

People experiencing financial and social disadvantage are vulnerable to high temperatures because they often live in homes that are poorly insulated, with no or limited shading; and no air conditioning or fans to help cool indoor temperatures. Even if the home has air conditioning and/or fans, rising energy costs mean that people on low incomes often cannot afford to run them. They are also less likely to have rooftop solar, which would significantly reduce their energy bills.

Further, people in rental properties are not able to make changes in their home that could make them more liveable, healthy and safe. Minimum rental standards could address this problem by placing requirements on landlords to ensure their property protects tenants against heat or cold. For example, the ACT requires landlords to have ceiling insulation and Victoria is implementing minimal rental standards.

ACOSS conducted a public, online Heat Survey over the 2023-24 summer to explore the intersection between high temperatures, energy performance of homes, energy costs and income. The data is gathered to advocate for support for people experiencing financial and social disadvantage to secure cooler, healthier and more climate-resilient homes, putting people with the least at the centre of government policy and planning.

The survey gives us valuable insight into how severely high heat affects people’s physical and mental health, their wellbeing and activity when they cannot cool their homes. The survey highlights how seriously poverty and poor energy-performing homes can reduce people’s resilience and capacity to cope with debilitating hot weather.

The ACOSS Heat Survey was open from 1 December 2023 to 28 January 2024. It was made available online via the survey tool, TypeformTM.

* Key findings

Exposure to high heat is a major threat to human health. More people die in Australia from heatwaves than all other extreme events combined. With climate change, Australia is becoming hotter. Very hot days and heatwaves are becoming more common. People experiencing financial and social disadvantage are worst impacted by these events.

Those worst affected experience a combination of:

• homes with poor energy performance;

• high energy prices;

• low incomes; and

• health conditions.

To track the intersection between housing, energy costs, heat, and people experiencing financial and social disadvantage, ACOSS conducted a public, online Heat Survey over the summer months, from December 2023 to January 2024. We received 1007 responses from people across the country, including: 66.1% receiving income support; 19.2% in social housing; 36.1% in private rental; 6.4% First Nations respondents. Additionally, 62.7% reported they or someone in their household has a disability or chronic health condition.

The survey found the majority of 1007 people surveyed (80.4%) said their homes get too hot. This was often to do with being in homes with low energy efficiency (e.g., no insulation or shading, dark roofing, no eaves).

More than half (56.7%) could not cool their home because:

• they do not have air conditioners or fans, or have them but they are broken, or have them only in part of the home or they are ineffective in cooling the home; or

• if they had functioning air conditioners and or fans, they could not afford to run them.

People most likely to struggle to cool their homes were:

• people in social housing (78.3%) or private rental (65.7%) with limited control to modify their home or access working efficient air conditioners to better deal with extreme temperatures;

• people receiving income support (60.8%) with limited resources to modify their homes, afford air-conditioning or fans, or afford the running costs to cool their home;

and

• First Nations people (71.9%), two thirds of whom were in social or private rental, and more than three-quarters of whom were receiving income support.

Exposure to high temperatures in the home has a range of serious negative impacts on household members. Respondents to the survey reported:

• Negative physical and mental health impacts, making them unwell (80.5% of all 1007 respondents; 94% of First Nations respondents). For many, the heat seriously aggravated existing chronic health conditions or disabilities.

• Having to seek medical attention for heat stress (14% of all respondents; 25% of First Nations respondents).

• Difficulty sleeping (94% of all respondents; 98% of First Nations respondents), reduced productivity for work and study, and raised tensions in the home.

• Avoiding everyday household activities due to the heat (like housework and cooking).

While medical and government advice often is to leave home to go to a cooler place during very hot weather, this is not always easy. Most people (90.5%) reported that they face mobility, cost and other barriers to doing so.

Many people reported challenges affording their energy bills which meant they couldn’t cool their home and/or afford other essentials:

• 59.8% reported finding it increasingly difficult to pay their energy bills, which affected their capacity to cool their homes.

• Many reported that high energy bills made it difficult to pay for essentials like food (46.7%), medicine (41.4%) or housing (34%).

First Nations respondents were even more likely to be struggling to pay for essentials such as energy and other bills (86%), food (75%), medicine (63%) and housing (58%).

A quarter of all 1007 people surveyed (25.8%) were currently in energy debt with their retailer or believed they would go into energy debt because they could not afford their next energy bill. People receiving income support (69.4%) and First Nations people (55%) were more likely to say they had an energy debt or that they considered it to be imminent.

We note that while the people surveyed are currently housed, extremes of temperature present more severe health risks from exposure and threats to life itself to people living on the streets or sleeping rough.

Findings from the ACOSS 2024 Heat Survey raise similar concerns to the previous ACOSS 2023 Heat Survey Report and Sweltering Cities’ 2021 and 2022 Summer Survey Reports.

However, a hotter summer in 2023/24, coupled with rising costs for energy, housing, food and other essentials were reflected in people’s comments. There was a clear level of distress amongst people surveyed about the growing challenge to reduce the impacts of

heat while affording energy bills and avoiding – or compounding existing - energy debt.

For people experiencing financial and social disadvantage, especially those living with disability or a health condition, the situation of hot homes that cannot be cooled remains untenable, putting lives at risk. The situation facing First Nations people surveyed is much worse on almost every measure. Therefore, prioritising this report’s recommendations for First Nations communities is essential.

Almost all 1007 people who completed the 2024 Heat Survey (96.5%) called on governments to do more to improve homes to be more resilient to extreme heat (and cold) and to support people to be able to afford energy bills and other essentials....

Read the full 30 page report and recommendations at:

https://www.acoss.org.au/wp-content/uploads/2024/03/ACOSSHeatSurveyReport2024.pdf