Zürcher Nachrichten - Climate change: A farm in Rotterdam

EUR -
AED 3.826681
AFN 70.961758
ALL 98.138602
AMD 405.652886
ANG 1.877182
AOA 951.190259
ARS 1045.720247
AUD 1.602814
AWG 1.877897
AZN 1.775245
BAM 1.955573
BBD 2.102956
BDT 124.465544
BGN 1.955294
BHD 0.392554
BIF 3076.642669
BMD 1.041829
BND 1.403837
BOB 7.197164
BRL 6.043693
BSD 1.041579
BTN 87.914489
BWP 14.229347
BYN 3.408604
BYR 20419.848375
BZD 2.099456
CAD 1.456529
CDF 2991.091432
CHF 0.930957
CLF 0.036923
CLP 1018.83097
CNY 7.54601
CNH 7.562783
COP 4573.368835
CRC 530.538382
CUC 1.041829
CUP 27.608468
CVE 110.252195
CZK 25.343745
DJF 185.478458
DKK 7.457729
DOP 62.772709
DZD 139.835759
EGP 51.726992
ERN 15.627435
ETB 127.508391
FJD 2.371151
FKP 0.822333
GBP 0.831435
GEL 2.855018
GGP 0.822333
GHS 16.456089
GIP 0.822333
GMD 73.970229
GNF 8977.957272
GTQ 8.040066
GYD 217.904692
HKD 8.110066
HNL 26.320943
HRK 7.431636
HTG 136.72412
HUF 411.522823
IDR 16610.452733
ILS 3.856892
IMP 0.822333
INR 87.968134
IQD 1364.44153
IRR 43834.955489
ISK 145.523076
JEP 0.822333
JMD 165.930728
JOD 0.738765
JPY 161.244275
KES 134.884334
KGS 90.122166
KHR 4193.512952
KMF 492.268155
KPW 937.645704
KRW 1463.259646
KWD 0.320727
KYD 0.867999
KZT 520.059599
LAK 22878.342838
LBP 93271.167197
LKR 303.144792
LRD 187.998165
LSL 18.795317
LTL 3.076251
LVL 0.630192
LYD 5.086409
MAD 10.478083
MDL 18.997794
MGA 4861.435378
MKD 61.522855
MMK 3383.819949
MNT 3540.134882
MOP 8.35093
MRU 41.443187
MUR 48.810083
MVR 16.10707
MWK 1806.090235
MXN 21.283008
MYR 4.654932
MZN 66.583684
NAD 18.795317
NGN 1767.675143
NIO 38.325549
NOK 11.53576
NPR 140.663663
NZD 1.785942
OMR 0.400943
PAB 1.041579
PEN 3.949541
PGK 4.193513
PHP 61.404399
PKR 289.239507
PLN 4.337676
PYG 8131.055634
QAR 3.798559
RON 4.978071
RSD 116.991412
RUB 108.671879
RWF 1421.834864
SAR 3.911473
SBD 8.734231
SCR 14.272055
SDG 626.663972
SEK 11.497837
SGD 1.402931
SHP 0.822333
SLE 23.68116
SLL 21846.638123
SOS 595.230868
SRD 36.978718
STD 21563.75683
SVC 9.113941
SYP 2617.626467
SZL 18.788818
THB 35.922648
TJS 11.092512
TMT 3.646401
TND 3.309016
TOP 2.440072
TRY 35.9978
TTD 7.074178
TWD 33.946439
TZS 2770.578216
UAH 43.089995
UGX 3848.553017
USD 1.041829
UYU 44.294855
UZS 13362.448044
VES 48.506662
VND 26482.251319
VUV 123.688032
WST 2.90836
XAF 655.880824
XAG 0.033274
XAU 0.000384
XCD 2.815595
XDR 0.792308
XOF 655.880824
XPF 119.331742
YER 260.379151
ZAR 18.915093
ZMK 9377.71492
ZMW 28.772658
ZWL 335.468513
  • SCS

    0.2300

    13.27

    +1.73%

  • CMSD

    0.0150

    24.46

    +0.06%

  • RIO

    -0.2200

    62.35

    -0.35%

  • BCC

    3.4200

    143.78

    +2.38%

  • GSK

    0.2600

    33.96

    +0.77%

  • CMSC

    0.0320

    24.672

    +0.13%

  • NGG

    1.0296

    63.11

    +1.63%

  • RBGPF

    59.2400

    59.24

    +100%

  • BTI

    0.4000

    37.38

    +1.07%

  • BP

    0.2000

    29.72

    +0.67%

  • BCE

    0.0900

    26.77

    +0.34%

  • RELX

    0.9900

    46.75

    +2.12%

  • RYCEF

    -0.0100

    6.79

    -0.15%

  • AZN

    1.3700

    65.63

    +2.09%

  • VOD

    0.1323

    8.73

    +1.52%

  • JRI

    -0.0200

    13.21

    -0.15%


Climate change: A farm in Rotterdam




A project that houses cows in a floating barn aims to demonstrate how farming can change its relationship with water and energy.

An overview of the issue of climate change and its effects on agriculture?

Climate change is no longer just a future threat, but a present reality that is already having a significant impact on agriculture worldwide. Rising temperatures, changing precipitation patterns and an increase in extreme weather events pose immense challenges for farmers and threaten

The global average temperature has increased by about 1.1 degrees Celsius since pre-industrial times. This warming is leading to changes in the growing conditions for many crops. Some plant species are sensitive to higher temperatures, which can lead to reduced yields and quality losses. For example, grain filling can be affected in

Changing precipitation patterns and water scarcity
Climate change also affects precipitation patterns, leading to droughts in some regions and flooding in others. Water scarcity is becoming an increasingly pressing problem, especially in areas of intensive agricultural use. Without sufficient irrigation, plants suffer from drought stress, which inhibits growth and reduces yields. On the other hand, heavy rainfall and flooding

Increase in extreme weather events
More frequent and intense extreme weather events such as heat waves, storms and frost periods are having a significant impact on agricultural production. Such events can destroy entire harvests, damage infrastructure and have long-term effects on soil fertility. Farmers have to adapt to unpredictable weather conditions, which makes

Spread of pests and diseases
With rising temperatures and changing climate conditions, pests and plant diseases are also spreading into new areas. Insects, fungi and viruses that were previously limited by climatic conditions can now infest larger areas. This increases the demand for pesticides and poses additional challenges for organic farming.

Impacts on animal husbandry
Livestock farming is also affected by climate change. Heat stresses farm animals and can lead to reduced growth, lower milk production and increased mortality rates. In addition, climate change affects the availability of forage crops and water, which makes animal husbandry even more difficult.

Adapting cultivation practices: Crop rotation, conservation tillage and the use of cover crops can maintain soil fertility and increase resilience to extreme weather.
Breeding climate-resistant varieties: Developing plants that can better cope with heat, drought or flooding is crucial for future food security.
Efficient irrigation systems: Technologies such as drip irrigation reduce water consumption and help to use water more efficiently.
Early warning systems: Weather forecasts and warning systems can help farmers to be better prepared for extreme weather events.
Diversification: Diversifying crops and income sources helps farmers to better cushion risks.

Policy support and global cooperation
Tackling the effects of climate change on agriculture requires policy support and international cooperation. Investments in research and development, education, and infrastructure are necessary to support farmers in their adaptation efforts. Furthermore, it is important to reduce global emissions to mitigate further climate change.

Conclusion
Climate change poses a serious threat to agriculture and global food security. However, the effects can be mitigated through proactive adaptation measures, innovation and political support. It is crucial to act now to safeguard agriculture for future generations and ensure the sustainable nutrition of the world's population.