Deutscher Wetterdienst: Zunahme von Extremwetter-Ereignissen statistisch schwer nachzuweisen

Es ist wichtig, dass sich Politiker in der Klimadebatte beide Seiten anhören. In den USA ist dies seit Jahren der Fall. Hier z.B. die Expertenaussage von Roger Pielke jr. vor dem US-Senat zum Thema Extremwetter:

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Der Focus war beim Thema Klimawandel schon immer peinlich. Am 7. März 2018 hat er sich nochmal ins Negative „gesteigert“. Hier geht es zum Fremdschämen:

Hochwasser, Trockenheit und Wirbelstürme – Wetterextreme in der Bundesrepublik: DWD empfiehlt Deutschen sich schon jetzt zu wappnen
Der Deutsche Wetterdienst rechnet für die Zukunft mit mehr Stürmen, extremen Regenfällen und Hitzewellen aufgrund der Klimaerwärmung. Zwar sei es schwierig, eine Zunahme solcher Extremwetter-Ereignisse statistisch nachzuweisen, sagte DWD-Experte Thomas Deutschländer am Dienstag in Berlin.

Bisher nichts zu registrieren. Aber in Zukunft auf jeden Fall katastrophal. Sagen die Klimamodelle, die nicht einmal die Vergangenheit korrekt abbilden können. Au weia.

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Die Forscher haben sich bei den Pinguinen verzählt. Man hatte eine ganze Kolonie von anderthalb Millionen Adeliepinguinen einfach übersehen, wie der Standard am 2. März 2018 meldete.

1,5 Millionen Adeliepinguine auf Inseln in der Antarktis entdeckt
Forscher waren über die große Population der Pinguine überrascht Paris – Die Entdeckung riesiger Pinguinkolonien in der Antarktis hat Wissenschafter überrascht: Auf den abgelegenen Danger Islands im Osten der Antarktischen Halbinsel fanden sie Kolonien von insgesamt 1,5 Millionen Adeliepinguinen. Nur 160 Kilometer westlich des Archipels gehe diese Art wegen der Eisschmelze zurück, heißt es in dem am Freitag in der Zeitschrift „Scientific Reports“ erschienenen Artikel.

Weiterlesen im Standard

Hier die dazugehörige Pressemitteilung der Woods Hole Oceanographic Institution:

Previously Unknown „Supercolony“ of Adelie Penguins Discovered in Antarctica

For the past 40 years, the total number of Adélie Penguins, one of the most common on the Antarctic Peninsula, has been steadily declining—or so biologists have thought. A new study led by researchers from the Woods Hole Oceanographic Institution (WHOI), however, is providing new insights on this species of penguin.

In a paper released on March 2nd in the journal Scientific Reports, the scientists announced the discovery of a previously unknown „supercolony“ of more than 1.5 million Adélie Penguins in the Danger Islands, a chain of remote, rocky islands off of the Antarctic Peninsula’s northern tip.

„Until recently, the Danger Islands weren’t known to be an important penguin habitat,“ says co-PI Heather Lynch, Associate Professor of Ecology & Evolution at Stony Brook University.  These supercolonies have gone undetected for decades, she notes, partly because of the remoteness of the islands themselves, and partly the treacherous waters that surround them. Even in the austral summer, the nearby ocean is filled with thick sea ice, making it extremely difficult to access.

Yet in 2014, Lynch and colleague Mathew Schwaller from NASA discovered telltale guano stains in existing NASA satellite imagery of the islands, hinting at a mysteriously large number of penguins. To find out for sure, Lynch teamed with Stephanie Jenouvrier, a seabird ecologist at WHOI, Mike Polito at LSU and Tom Hart at Oxford University to arrange an expedition to the islands with the goal of counting the birds firsthand.

When the group arrived in December 2015, they found hundreds of thousands of birds nesting in the rocky soil, and immediately started to tally up their numbers by hand. The team also used a modified commercial quadcopter drone to take images of the entire island from above.

„The drone lets you fly in a grid over the island, taking pictures once per second. You can then stitch them together into a huge collage that shows the entire landmass in 2D and 3D,“ says co-PI Hanumant Singh, Professor of Mechanical and Industrial Engineering at Northeastern University, who developed the drone’s imaging and navigation system. Once those massive images are available, he says, his team can use neural network software to analyze them, pixel by pixel, searching for penguin nests autonomously.

The accuracy that the drone enabled was key, says Michael Polito, coauthor from Louisiana State University and a guest investigator at WHOI. The number of penguins in the Danger Islands could provide insight not just on penguin population dynamics, but also on the effects of changing temperature and sea ice on the region’s ecology.

„Not only do the Danger Islands hold the largest population of Adélie penguins on the Antarctic Peninsula, they also appear to have not suffered the population declines found along the western side of Antarctic Peninsula that are associated with recent climate change,“ says Polito.

Being able to get an accurate count of the birds in this supercolony offers a valuable benchmark for future change, as well, notes Jenouvrier. „The population of Adélies on the east side of the Antarctic Peninsula is different from what we see on the west side, for example. We want to understand why. Is it linked to the extended sea ice condition over there? Food availability? That’s something we don’t know,“ she says.

It will also lend valuable evidence for supporting proposed Marine Protected Areas (MPAs) near the Antarctic Peninsula, adds Mercedes Santos, from the Instituto Antártico Argentino (who is not affiliated with this study but is one of the authors of the MPA proposal) with the Commission for the Conservation of the Antarctic Marine Living Resources, an international panel that decides on the placement of MPAs. „Given that MPA proposals are based in the best available science, this publication helps to highlight the importance of this area for protection,“ she says.

Also collaborating on the study: Alex Borowicz, Philip McDowall, Casey Youngflesh, Mathew Schwaller, and Rachael Herman from Stony Brook University; Thomas Sayre-McCord from WHOI and MIT; Stephen Forrest and Melissa Rider from Antarctic Resource, Inc.; Tom Hart from Oxford University; and Gemma Clucas from Southampton University. The team utilized autonomous robotics technology from Northeastern University. Funding for this research was provided by a grant to the Wood Hole Oceanographic Institution from the Dalio Ocean Initiative. Logistical support was provided by Golden Fleece Expeditions and Quark Expeditions.

 

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