Norvergence INC (Interdecadal New Zealand Climate) Report

The following data under Norvergence INC (Interdecadal New Zealand Climate) Report is collected after months of research and analysis.

New Zealand is being affected by environmental change and effects are set to increment in size and degree after some time. 

Floods, dry seasons, and fires will turn out to be more frequent until a noteworthy move is made to diminish worldwide emanations of greenhouse gases, which are changing the atmosphere. 

Indeed, even little changes in climatic conditions are probably going to prompt enormous changes in the recurrence of extreme environmental events. Also, our society is not intended to adapt to such quick changes.

Norvergence INC (Interdecadal New Zealand Climate): Climate Change Scenario

Climate Change Scenario

An expectation of global greenhouse gas and airborne emanations for the next century.

A worldwide carbon cycle model to convert these emissions into changes in carbon dioxide concentrations (and comparable models for calculating concentrations of other ozone harming substances and mist concentrates).

A coupled atmosphere-ocean global circulation model (AOGCM) which utilizes the ozone harming substance and vaporized fixation data to predict climate variations forward in time.

Down scaling of the AOGCM results through a method that assesses the impact of New Zealand’s topography on the local climate. This should be possible either measurably or with a high-resolution regional atmosphere model.

Norvergence INC (Interdecadal New Zealand Climate): New Zealand climate change projections for 2040 and 2090 (Ministry for the Environment, 2016).

Climate variableDirection of changeMagnitude of changeSpatial and seasonal variation
Mean temperature

Progressive increase with greenhouse gas concentration.

Only for RCP2.6 does warming trend peak and then decline.

By 2040, from +0.7°C [RCP2.6] to +1.0°C [RCP8.5].

By 2090, +0.7°C to +3.0°C.

Warming greatest at higher elevations. Warming greatest summer/autumn and least winter/spring.
Minimum and maximum temperaturesAs mean temperature.Maximum increases faster than minimum. Diurnal range increases by up to 2°C by 2090 (RCP8.5).Higher elevation warming particularly marked for maximum temperature.
Daily temperature extremes: frostsDecrease in cold nights (minimum temperature of 0°C or lower).

By 2040, a 30% [2.6] to 50% [8.5] decrease.

By 2090, 30% [2.6] to 90% [8.5] decrease.

Percentage changes similar in different locations, but number of days of frost decrease (hot day increase) greatest in the coldest (hottest) regions.
Daily temperature extremes: hot daysIncrease in hot days (maximum temperature of 25°C or higher).

By 2040, a 40% [2.6] to 100% [8.5] increase.

By 2090, a 40% [2.6] to 300% [8.5] increase.

Mean precipitationVaries around the country and with season. Annual pattern of increases in west and south of New Zealand, and decreases in north and east.Substantial variation around the country, increasing in magnitude with increasing emissions.Winter decreases: Gisborne, Hawke’s Bay and Canterbury.
Winter increases: Nelson, West Coast, Otago and Southland.
Spring decreases: Auckland, Northland and Bay of Plenty.
Daily precipitation extremes: dry daysMore dry days throughout North Island, and in inland South Island.By 2090 [8.5], up to 10 or more dry days per year (~5% increase).Increased dry days most marked in north and east of North Island, in winter and spring.
Daily precipitation extremes: very wet daysIncreased extreme daily rainfalls, especially where mean rainfall increases.More than 20% increase in 99th percentile of daily rainfall by 2090 [8.5] in South West of South Island. A few percentage decrease in north and east of North Island.Increase in western regions, and in south of South Island. No increase in 99th percentile in parts of north and east of North Island.
SnowDecrease.Snow days per year reduce by 30 days or more by 2090 under RCP8.5.Large decreases confined to high altitude or southern regions of the South Island.
DroughtIncrease in severity and frequency.By 2090 [8.5], up to 50mm or more increase per year, on average, in July–June PED.Increases most marked in already dry areas.
CirculationVaries with season.Generally, the changes are only a few hectopascals, but the spatial pattern matters.More northeast airflow in summer. Strengthened westerlies in winter.
Extreme wind speedsIncrease.Up to 10% or more in parts of the country.Most robust increases occur in southern half of North Island, and throughout the South Island.
StormsLikely poleward shift of mid-latitude cyclones and possibly also a small reduction in frequency.More analysis needed.See full report.
Solar radiationVaries around the country and with season.Seasonal changes generally lie between -5% and +5%.By 2090 [8.5], West Coast shows the largest changes: summer increase (~5%) and winter decrease (5%).
Relative humidityDecrease.Up to 5% or more by 2090 [8.5], especially in the South Island.Largest decreases in South Island in spring and summer.

Norvergence INC (Interdecadal New Zealand Climate): Global Share of Emissions

In 2015, New Zealanders produced 17.5 tons of ozone harming substances (estimated as carbon dioxide equal) per individual, 33% higher than the average of 13.2 tons from industrialized nations. 

In the most recent figures from 2017, net emanations rose 2.2% from 2016 and stay 23% above 1990 levels. The prompt causes are clearly stated: high outflows of methane and nitrous oxide from farming and rising discharges of carbon dioxide from transport.

Norvergence INC (Interdecadal New Zealand Climate): Future Scenarios

Future Scenarios

The vulnerabilities are clear. We don’t have a clear idea of the rate of future emissions, or the effects under various emission situations. The most significant effects, for example, ocean level ascent, are also the most uncertain. Environmental change has the ability to undermine environmental efforts somewhere else. 

Surveys show a rising awareness of environmental change and a yearn for more grounded activity. The Zero Carbon Bill is relied upon to choose panels before June, yet in any event, when passed, emanations won’t begin falling until the mid-2020s, with the heavy lifting left to the 2040s and future outflow reduction innovations. 

A recent report on New Zealand’s transmission to a low-emanation economy traces a lot of progressively prompt activities and we hope that it will continue in the future also.