Zürcher Nachrichten - The surprising climate power of penguin poo

EUR -
AED 4.183048
AFN 72.314042
ALL 93.898303
AMD 419.153057
ANG 2.038998
AOA 1044.89568
ARS 1690.672427
AUD 1.651032
AWG 2.049928
AZN 1.936081
BAM 1.954785
BBD 2.294468
BDT 140.354657
BGN 1.925657
BHD 0.429413
BIF 3388.074763
BMD 1.138849
BND 1.476807
BOB 7.900759
BRL 5.945252
BSD 1.139188
BTN 108.572718
BWP 16.26327
BYN 3.318918
BYR 22321.433736
BZD 2.29117
CAD 1.618002
CDF 2579.49217
CHF 0.921021
CLF 0.02679
CLP 1054.369086
CNY 7.737281
CNH 7.738112
COP 3904.759012
CRC 518.521655
CUC 1.138849
CUP 30.179489
CVE 110.325979
CZK 24.236636
DJF 202.861103
DKK 7.474566
DOP 68.100581
DZD 151.843155
EGP 55.917926
ERN 17.08273
ETB 181.020431
FJD 2.556938
FKP 0.859051
GBP 0.858179
GEL 3.006554
GGP 0.859051
GHS 12.942983
GIP 0.859051
GMD 83.701678
GNF 9990.551529
GTQ 8.688336
GYD 238.302078
HKD 8.932844
HNL 30.429885
HRK 7.532575
HTG 148.950043
HUF 354.818526
IDR 20438.916901
ILS 3.400037
IMP 0.859051
INR 108.238169
IQD 1492.461169
IRR 1567055.755971
ISK 143.791239
JEP 0.859051
JMD 179.156974
JOD 0.807496
JPY 184.995771
KES 147.42431
KGS 99.592135
KHR 4566.782743
KMF 491.982899
KPW 1024.964193
KRW 1767.23083
KWD 0.352701
KYD 0.94939
KZT 546.006901
LAK 25624.094601
LBP 101983.897292
LKR 382.694568
LRD 207.612203
LSL 18.700172
LTL 3.362724
LVL 0.688878
LYD 7.300234
MAD 10.688123
MDL 20.147185
MGA 4862.883342
MKD 61.638162
MMK 2391.139854
MNT 4080.476394
MOP 9.204059
MRU 45.724815
MUR 53.751653
MVR 17.606532
MWK 1978.180039
MXN 19.972883
MYR 4.662561
MZN 72.71585
NAD 18.699794
NGN 1570.460673
NIO 41.704567
NOK 11.295781
NPR 173.716748
NZD 2.007261
OMR 0.437903
PAB 1.139188
PEN 3.886892
PGK 4.98589
PHP 70.159341
PKR 316.656978
PLN 4.29043
PYG 6924.283008
QAR 4.151678
RON 5.23005
RSD 117.337286
RUB 88.553635
RWF 1668.413287
SAR 4.272278
SBD 9.184861
SCR 15.319799
SDG 683.868824
SEK 11.081677
SGD 1.475521
SHP 0.850266
SLE 28.24243
SLL 23881.091149
SOS 650.862356
SRD 42.711946
STD 23571.867935
STN 24.883843
SVC 9.967649
SYP 125.879331
SZL 18.688698
THB 37.952699
TJS 10.537743
TMT 3.997359
TND 3.355333
TOP 2.742075
TRY 53.146539
TTD 7.733848
TWD 36.269712
TZS 2989.48117
UAH 51.070061
UGX 4174.758967
USD 1.138849
UYU 45.795417
UZS 13723.125953
VES 708.641199
VND 29952.289182
VUV 136.773869
WST 3.167006
XAF 655.605068
XAG 0.018926
XAU 0.000279
XCD 3.077795
XCG 2.053098
XDR 0.814298
XOF 653.130407
XPF 119.331742
YER 271.733346
ZAR 18.667214
ZMK 10250.993881
ZMW 20.739867
ZWL 366.708804
  • CMSD

    0.1000

    22

    +0.45%

  • BCE

    -0.2000

    21.31

    -0.94%

  • NGG

    -2.1600

    80.71

    -2.68%

  • RIO

    -0.8200

    94.11

    -0.87%

  • BCC

    -1.0400

    76.59

    -1.36%

  • GSK

    -1.1450

    51.275

    -2.23%

  • RYCEF

    0.4000

    19.5

    +2.05%

  • RBGPF

    0.6100

    65.61

    +0.93%

  • JRI

    0.0060

    12.966

    +0.05%

  • RELX

    -0.0850

    31.585

    -0.27%

  • AZN

    -5.2550

    184.365

    -2.85%

  • CMSC

    0.1900

    21.83

    +0.87%

  • BTI

    -1.1800

    60.58

    -1.95%

  • VOD

    -0.1800

    13.045

    -1.38%

  • BP

    -0.6150

    36.335

    -1.69%

The surprising climate power of penguin poo
The surprising climate power of penguin poo / Photo: Mark RALSTON - AFP/File

The surprising climate power of penguin poo

Antarctica's icy wilderness is warming rapidly under the weight of human-driven climate change, yet a new study points to an unlikely ally in the fight to keep the continent cool: penguin poo.

Text size:

Published Thursday in Communications Earth & Environment, the research shows that ammonia wafting off penguin guano seeds extra cloud cover above coastal Antarctica, likely blocking sunlight and nudging temperatures down.

Lead author Matthew Boyer, an atmospheric scientist at the University of Helsinki, told AFP that lab studies had long shown gaseous ammonia can help form clouds.

But "to actually quantify this process and to see its influence in Antarctica hasn't been done," he said.

Antarctica is an ideal natural laboratory. With virtually no human pollution and scant vegetation -- both alternative sources of cloud-forming gases -- penguin colonies dominate as ammonia emitters.

The birds' future, however, is under threat.

Shrinking sea ice disrupts their nesting, feeding and predator-avoidance routines -- making it all the more urgent to understand their broader ecological role.

Along with other seabirds such as Imperial Shags, penguins expel large amounts of ammonia through droppings, an acrid cocktail of feces and urine released via their multi-purpose cloacas.

When that ammonia mixes with sulfur-bearing gases from phytoplankton -- the microscopic algae that bloom in the surrounding ocean -- it boosts the formation of tiny aerosol particles that grow into clouds.

To capture the effect in the real world, Boyer and teammates set up instruments at Argentina's Marambio Base on Seymour Island, off the northern tip of the Antarctic Peninsula.

Over three summer months -- when penguin colonies are bustling and phytoplankton photosynthesis peaks -- they monitored wind direction, ammonia levels and newly minted aerosols.

When the breeze blew from a 60,000-strong Adelie penguin colony eight kilometers (five miles) away, atmospheric ammonia spiked to 13.5  parts per billion -- about a thousand times the background level.

For over a month after the birds had departed on their annual migration, concentrations stayed roughly 100 times higher, with the guano-soaked ground acting as a slow-release fertilizer.

Particle counters told the same story: cloud-seeding aerosols surged whenever air masses arrived from the colony, at times thick enough to generate a dense fog.

Chemical fingerprints in the particles pointed back to penguin-derived ammonia.

- Penguin-plankton partnership -

Boyer calls it a "synergistic process" between penguins and phytoplankton that supercharges aerosol production in the region.

"We provide evidence that declining penguin populations could cause a positive climate-warming feedback in the summertime Antarctic atmosphere," the authors write -- though Boyer emphasized that this remains a hypothesis, not a confirmed outcome.

Globally, clouds have a net cooling effect by reflecting solar radiation back into space. Based on Arctic modeling of seabird emissions, the team believes a similar mechanism is likely at play in Antarctica.

But the impact also depends on what's beneath the clouds.

Ice sheets and glaciers also reflect much of the Sun's energy, so extra cloud cover over these bright surfaces could trap infrared heat instead -- meaning the overall effect hinges on where the clouds form and drift.

Still, the findings highlight the profound interconnections between life and the atmosphere -- from the Great Oxygenation Event driven by photosynthesizing microbes billions of years ago to penguins influencing cloud cover today.

"This is just another example of this deep connection between the ecosystem and atmospheric processes, and why we should care about biodiversity and conservation," Boyer said.

W.Odermatt--NZN